Compositions and methods for diagnosing thyroid cancer

ABSTRACT

The present application relates to methods and compositions for detecting thyroid cancer in mammals, in particular in humans. The invention provides novel biomarkers which, in combination, allow effective, specific and sensitive detection of thyroid cancer, particularly to assist in the diagnosis of thyroid lesions in human subjects. The invention further relates to tools and/or kits (such as reagents, probes, primers, chips or arrays) suitable for implementing said methods, and the preparation and uses thereof.

The present application relates to methods and compositions for detecting thyroid cancer in mammals, in particular in human beings. The invention provides novel biomarkers which allow effective, specific and sensitive detection of thyroid cancer, particularly to assist in the diagnosis of thyroid lesions in human subjects. The invention further relates to tools and/or kits (such as reagents, probes, primers, chips or arrays) suitable for implementing said methods, and the preparation and uses thereof.

Thyroid cancer is the most common malignancy of the endocrine system (Curado, Edwards et al. 2007). Over 60 000 new cases are diagnosed each year in the US; despite its low malignancy potential, it is estimated that 1,890 patients will die of this disease in 2014 (http://seer.cancer.gov/statfacts/html/thyro.html accessed Oct. 15, 2014).

Three different types of thyroid cancer have been defined according to their histological features: differentiated thyroid cancer (DTC) deriving from epithelial cells from the thyroid follicles; medullary thyroid cancer (MTC); and anaplastic thyroid cancer (ATC). Approximately 90% of diagnosed thyroid cancers correspond to DTC, with papillary (PTC) histology being the most frequent (75%), followed by follicular (FTC) (10%), Hürthle cells (5%), and poorly differentiated carcinomas (1-6%). Overall, MTC accounts for approximately 10% of all thyroid tumors and ATC barely 1% [2]. Although the papillary thyroid cancer (PTC) is the most frequent, the follicular thyroid cancer (FTC) is less common but more aggressive. Hürthle cell thyroid cancer (HCC) is an uncommon but distinct and generally more aggressive type of thyroid cancer, which is now classified by the World Health Organization (WHO) as a subtype of follicular cancer (Harris and Bible 2011). Most DTC patients have a very good prognosis if diagnosed at early stages, with a 91% survival rate at 20 years when the classical treatment with surgery followed by suppression of thyroid stimulating hormone (TSH) is employed.

Thyroid nodules are a frequent clinical finding during thyroid examination with a prevalence ranging between 4 and 7% in the general population. This prevalence is even higher in case of ultrasonography of the cervical area and can reach 50% of patients over the age of 65. The most accurate tool for evaluating thyroid nodules is fine needle aspiration (FNA), with an accuracy >95%. There are several classification systems for thyroid cytology, the most recognized and the most widely used is the Bethesda classification (Cibas and Ali, 2009) composed of 6 categories for which the recommended patient management is different:

-   -   1. Bethesda category I: Non diagnostic (frequency: about 10%):         the cytological analysis is not possible because, for instance,         insufficient cells have been collected, the repeat of the FNA is         recommended.     -   2. Cat II: Benign (frequency: about 70%): the malignancy rate is         below 3%, the patients are referred to clinical follow up.     -   3. Cat III: Follicular lesion or neoplasm of unknown         significance: the malignancy rate is of 5% to 15%, the patients         are referred to clinical follow up and repeated FNA.     -   4. Cat IV: Follicular lesion or neoplasm: the malignancy rate is         in the range of 15% to 30%. The recommended approach can include         partial or complete thyroidectomy. The frequency of follicular         neoplasms and atypia/follicular lesions of undetermined         significance is about 15%.     -   5. Cat V: Suspicious of malignancy: the malignancy rate is of         60% to 75% and complete removal of the thyroid is recommended.     -   6. Cat VI: Malignant: the malignancy rate is 97% to 99%, the         patient's thyroid gland should be resected.         The frequency of category V and category VI (suspicion for         malignancy and malignancy) is ≦5%.

Because FNA is unable to provide a definitive diagnosis for the nodules in categories 3, 4 and 5, most patients with indeterminate cytology undergo diagnostic surgery (i.e., partial thyroidectomy) to establish a histopathological diagnosis. If malignancy is identified, the patients require a complete thyroid resection. In contrast, if the pathological exam reveals a benign nodule, partial thyroidectomy has proven to be unnecessary (frequency: 60 to 80%). This situation of indeterminate cytology is encountered in up to 25% of the patients with a thyroid nodule undergoing FNA and shows the need of more powerful molecular tools to decrease the number of unnecessary surgeries.

Recent work has investigated the potential benefit of combining microscopic and mutation analyses (Nikiforov et al, 2011). There are several molecular tests available such as Thyroseq (Nikiforova et al, 2013) or Afirma (Alexander et al, 2012). These tests, however, have either low specificity or low sensitivity. Epigenetic and peripheral blood markers have also been studied but they have limited sensitivity and fail to detect 30% to 40% of cancers (Hu et al, 2006). WO2013/086429 provides long lists of genes presented as potentially related to thyroid cancer. Eszlinger et al (Endocrine reviews 28(3), 2007, 322) and Huang et al (PNAS 98(26), 2001, 15044) discuss gene expression profiling of thyroid tumors. A number of genes are listed in these documents but no hint towards specific combinations thereof is provided which would allow specific and effective thyroid cancer management.

There is a need for alternative methods of detecting thyroid cancer that are specific and sensitive, therefore increasing the number of definitive diagnoses and reducing unnecessary diagnostic surgeries.

SUMMARY OF THE INVENTION

The present invention provides novel biomarkers which allow very specific and sensitive diagnosis of thyroid cancer. Starting from approximately 20 000 genes and 35 000 alternative splicing events, the inventors have been able to identify target genes as highly relevant biomarkers of thyroid cancer. By combining expression markers from these genes and/or domains of these genes, it is possible to determine with a high level of certainty, the malignant vs benign stage of thyroid lesions in human samples. The invention specifically improves the ability to distinguish malignant versus benign profiles within a population of FNA samples being considered as “indeterminate” (especially in categories III and IV from the Bethesda classification) during a cytological exam. By providing a determinant diagnosis to subjects initially identified as “indeterminate” the invention improves the clinical management of patients with thyroid nodules in order to avoid unnecessary thyroid surgeries.

An object of the invention more particularly relates to a method for aiding in the diagnosis of thyroid cancer in mammals, comprising measuring a set of target biomarkers in a biological sample from the mammal and diagnosing said thyroid cancer by comparing the measured value to a reference value, wherein the set of target biomarkers comprises an expression product of at least two genes selected among CITED1, TENM1, CCM2, SCLY and IGSF10 or at least two distinct domains of at least one expression product of a gene selected among CITED1, TENM1, CCM2, SCLY and IGSF10.

A further object of the invention relates to a method as defined above for determining whether the mammal has or is likely to have a malignant thyroid lesion.

Another object of the invention relates to a method for diagnosing thyroid cancer in mammals, comprising measuring an expression product of at least two genes selected among CITED1, TENM1, CCM2, SCLY and IGSF10, or at least two distinct domains of at least one expression product of a gene selected among CITED1, TENM1, CCM2, SCLY and IGSF10, in a biological sample from the mammal, and diagnosing said thyroid cancer by comparing the measured value to a reference value.

The invention further relates to the use of a set of target biomarkers comprising an expression product of at least two genes selected among CITED1, TENM1, CCM2, SCLY and IGSF10, or at least two distinct domains of at least one expression product of a gene selected among CITED1, TENM1, CCM2, SCLY and IGSF10, for the diagnosis in vitro or ex vivo of thyroid cancer.

In a preferred embodiment, the method comprises measuring in a biological sample from the subject an expression product of CITED1 and an expression product of TENM1. In a further preferred embodiment, the method comprises measuring in a biological sample from the subject an expression product of CITED1, TENM1, CCM2, SCLY and IGSF10 genes.

The above biomarkers may be further combined with additional biomarkers. In this regard, in a particular embodiment, the set of biomarkers further comprises an expression product of the FRMD3 gene.

In further particular embodiments of the invention, the set of biomarkers further comprises at least one protein or RNA encoded by a gene selected from Table A, preferably each gene listed in Table A.

In further particular embodiments of the invention, the set of biomarkers further comprises at least one protein or RNA encoded by a gene selected from Table B, preferably each gene listed in Table B.

In a particular embodiment of the invention, the set of biomarkers comprises one expression product of CITED1, TENM1, CCM2, SCLY, IGSF10 and FRMD3 and of each gene listed in Table A and in Table B.

In a specific mode of carrying out the invention, the method comprises:

a. providing a biological sample (comprising thyroid cells) from the subject having a thyroid condition or suspected to have a thyroid condition; and b. measuring in said biological sample the expression of at least two genes selected among CITED1, TENM1, CCM2, SCLY and IGSF10, or at least two distinct domains of at least one expression product of a gene selected among CITED1, TENM1, CCM2, SCLY and IGSF10.

A further object of the invention resides in a kit comprising a solid support comprising at least two capture agents attached thereto, wherein each capture agent binds to an expression product of a distinct gene selected among CITED1, TENM1, CCM2, SCLY and IGSF10, or to at least two distinct domains of at least one expression product of a gene selected among CITED1, TENM1, CCM2, SCLY and IGSF10.

Another object of the invention relates to a method of treating thyroid cancer in a subject, the method comprising (i) measuring the expression product of at least 2 genes selected among CITED1, TENM1, CCM2, SCLY and IGSF10 in a sample from the subject, said measure allowing the diagnosis of thyroid cancer, and (ii) resecting the cancer when the subject is diagnosed to have thyroid cancer in step (i).

The invention may be used on any mammal, in particular any human subject. It is particularly effective to discriminate between malignant and benign thyroid lesions or nodules in a subject, and therefore to determine whether a thyroid lesion in a subject is malignant. The invention may be used on cellular samples, tissue biopsy or fine thyroid needle aspirate.

LEGEND TO THE FIGURES

FIG. 1: ROC curves generated using a p-value cut-off of 10⁻³. A. Correlation with Malignant profile, B. Correlation with Benign profile and C. Difference between Correlation with Benign and Malignant profiles.

FIG. 2: Correlation of each specimen with the average benign and malignant profiles (cut-off 10⁻³).

FIG. 3: ROC curves generated using a p-value cut-off of 10⁻⁵. A. Correlation with Malignant profile, B. Correlation with Benign profile and C. Difference between Correlation with Benign and Malignant profiles.

FIG. 4: Correlation of each specimen with the average benign and malignant profiles (cut-off 10⁻⁵).

FIG. 5: ROC curves generated using a p-value cut-off of 10⁻⁷. A. Correlation with Malignant profile, B. Correlation with Benign profile and C. Difference between Correlation with Benign and Malignant profiles.

FIG. 6: Correlation of each specimen with the average benign and malignant profiles (cut-off 10⁻⁷).

DETAILED DESCRIPTION OF THE INVENTION

The present invention provides novel methods for diagnosing thyroid cancer based on the analysis of new biomarkers. Upon comprehensive analysis of all of the human genes in biological samples from patients with malignant or benign nodules, the inventors identified genes which represent strong diagnostic biomarkers of thyroid cancer and may be used to determine, with high level of certainty, the malignant vs benign status of thyroid lesions in human subject samples. Expression of these gene products is strongly correlated to the disease and allows discrimination between malignant and benign nodules of the thyroid gland based on only two genes or on only two distinct domains of one of said genes.

An object of the invention more particularly relates to a method for (aiding in) the diagnosis of thyroid cancer in mammals, comprising the measurement of an expression product of at least two genes selected among CITED1, TENM1, CCM2, SCLY and IGSF10 or of two distinct domains of one of said genes, in a sample from the mammal and the diagnosis of said thyroid cancer by comparing the measured value to a reference value.

Another object of the invention relates to a method for (aiding in) the diagnosis of thyroid cancer in mammals, comprising the measurement of the expression of at least two distinct domains of at least one, preferably at least 2 genes selected among CITED1, TENM1, CCM2, SCLY and IGSF10 in a sample from the mammal and the diagnosis of said thyroid cancer by comparing the measured value to a reference value.

In a particular embodiment, the method comprises:

-   -   a) providing a biological sample from a subject having a thyroid         condition (e.g. a thyroid lesion or nodule) or suspected to have         a thyroid condition; and     -   b) measuring in said biological sample the expression product of         genes as defined above.

In a further particular embodiment, the invention is conducted after cytological exam and allows the diagnosis of patient samples remaining “indeterminate” after said cytological exam. In this regard, a particular method of the invention comprises:

-   -   a) the provision (e.g., the collection) of a biological sample         from the subject having a thyroid condition or suspected to have         a thyroid condition;     -   b) a cytological exam of the sample to classify the thyroid         condition (in a category comprised between 1 and 6) according to         the Bethesda classification, and     -   c) for any sample of indeterminate cytology, the measurement of         the expression product of target genes as described above.

Target Genes

The invention discloses the identification of genes whose expression products allow efficient diagnosis of thyroid cancer. Said genes have been selected from a set of approximately 20,000 human genes and demonstrate a greater than 97% specificity in a thyroid cancer diagnostic, which is remarkable. These genes, in various combinations, are sufficient to produce strong diagnostic results of thyroid cancer, which is very advantageous when compared with current proposed tests comprised of more than 100 genes.

Preferred target genes for use in the invention are CITED1, TENM1, CCM2, SCLY and IGSF10. As disclosed in the examples, detecting a gene product of at least 2 of these genes, or at least two domains of a gene product of one of these genes, is sufficient to provide a reliable diagnosis of thyroid cancer.

The full length nucleic acid sequences of these genes are publicly available and may be found in the NCBI Entrez gene database. The identifications for each of these genes is provided below as well as in Table C:

Entrez Gene Gene ID name Gene description 4435 CITED1 Cbp/p300-interacting transactivator, with Glu/Asp-rich carboxy-terminal domain, 1 10178 TENM1 odz, odd Oz/ten-m homolog 1(Drosophila) 51540 SCLY selenocysteine lyase 83605 CCM2 cerebral cavernous malformation 2 257019 FRMD3 FERM domain containing 3 285313 IGSF10 immunoglobulin superfamily, member 10

Within the context of the present invention, the term “CITED1 gene” designates preferably a human CITED1 gene, particularly a nucleic acid molecule or sequence comprising (i) a sequence of gene#4435 or a sequence complementary thereto; or (ii) a natural variant of a sequence of (i) such as a polymorphism; or (iii) a sequence having at least 90% identity, preferably at least 95, 96, 97, 98 or 99%, to a sequence of (i) or (ii); or (iv) a sequence hybridizing under stringent conditions to a sequence of (i) or (ii).

The same definition applies to the TENM1, CCM2, SCLY and IGSF10 genes by reference to gene#10178, 83605, 51540 and 285313, respectively, as well as to any other gene quoted in the present application, by reference to the corresponding reference sequence (see Tables A to C).

The present invention shows that the above genes or alternative isoforms of those genes are deregulated in thyroid cancer subjects so that any domain or sequence of an expression product encoded by said genes may be measured. For improved detection, however, especially when the method is based on a combined measure of the expression product of only 1 to 3 of said genes, the invention shows that particular domains or sequences (“target sequences”) may be targeted in the expression products of these genes for improved thyroid cancer diagnosis.

In this regard, in relation to CITED1 gene, the method preferably comprises measuring (e.g., determining the presence, absence or amount of) at least one sequence encoded by exon4, exon3, or exon(−2) in an expression product of the CITED1 gene. As shown in the experimental section, by designing reagents (e.g., probes or primers) that detect such preferred domains of CITED1 gene products, a more specific and sensitive detection of thyroid cancer is obtained. In a more preferred embodiment, the method comprises measuring (e.g., determining the presence, absence or amount of) a target sequence of CITED1 comprised in any of the sequences listed as SEQ ID NOs: 106-119.

With regard to TENM1, in a particular embodiment, the method comprises measuring (e.g., determining the presence, absence or amount of) at least one sequence encoded by exon1, 3, 13, 15, 17, 18, 19, 25 or 32 in an expression product of the TENM1 gene. As shown in the experimental section, by designing reagents that detect such preferred domains of TENM1 gene products, a more specific and sensitive detection of thyroid cancer is obtained. In a more preferred embodiment, the method comprises measuring (e.g., determining the presence, absence or amount of) a target sequence of TENM1 comprised in any of the sequences listed as SEQ ID NOs: 817-838.

With regard to CCM2, in a particular embodiment, the method comprises measuring a target sequence comprised in SEQ ID NO: 83.

With regard to SCLY, in a particular embodiment, the method comprises measuring a target sequence comprised in SEQ ID NO: 749.

With regard to IGSF10, in a particular embodiment, the method comprises measuring a target sequence comprised in SEQ ID NO: 335.

Moreover, in a further particular embodiment, the invention comprises measuring at least two distinct target sequence of an expression product the above target genes. The invention indeed shows that by monitoring two or more distinct domains in e.g., CITED1 or TENM1 gene products, an efficient and reliable diagnosis of thyroid cancer is made.

In this regard, in a particular embodiment, the method comprises measuring at least one sequence encoded by exon4 of the CITED1 gene and at least one sequence encoded by exon 3 and/or exon(−2) of the CITED1 gene.

In another particular embodiment, the method comprises measuring at least one sequence encoded by exon17, 18, 19, 25, or 32 of the TENM1 gene and at least one sequence encoded by exon1, 3, 13 or 15 of the TENM1 gene.

The results shown in the experimental section demonstrate that, by detecting distinct target sequences or domains of a single target gene as defined above, a very reliable detection of thyroid cancer is obtained. For instance, by detecting 3 domains of CITED1, a sensitivity and specificity of 75% and 90%, respectively, can be achieved, and by detecting several distinct target sequences as defined above of CITED1 and TENM1, a specificity of 92.5% can be obtained, which is remarkable and suitable to design a commercial test.

In a preferred embodiment, the invention comprises measuring a gene product of at least the CITED1 and TENM1 genes.

In another embodiment, the invention comprises measuring a gene product of at least the CITED1 and CCM2 genes.

In another embodiment, the invention comprises measuring a gene product of at least the CITED1 and SCLY genes.

In another embodiment, the invention comprises measuring a gene product of at least the CITED1, TENM1, CCM2, SCLY and IGSF10 genes.

Furthermore, while the above 5 target genes already provide highly reliable test, it is possible to further improve the method by combining said genes with further marker genes identified by the inventors.

In this regard, in a particular and preferred embodiment, the method further comprises the determination of at least one gene product of the FRMD3 gene (gene#257019). In a particular embodiment, for measuring FRMD3 gene expression, the method comprises measuring a target sequence comprised in any of the sequences listed as SEQ ID NOs: 249 to 269.

In a preferred embodiment, the invention comprises measuring a gene product of at least the CITED1 and FRMD3 genes.

In another embodiment, the invention comprises measuring a gene product of at least the CITED1 and TENM1 and FRMD3 genes.

In another embodiment, the invention comprises measuring a gene product of at least the CITED1, TENM1, CCM2, SCLY, IGSF10, and FRMD3 genes.

Moreover, to design more universal tests, the invention combines additional marker(s) identified by the inventors, selected from the expression products of the genes listed in table A and/or in Table B below:

TABLE A Entrez Gene ID Gene name Gene description 607 BCL9 B-cell CLL/lymphoma 9 954 ENTPD2 ectonucleoside triphosphate diphosphohydrolase 2 956 ENTPD3 ectonucleoside triphosphate diphosphohydrolase 3 1000 CDH2 cadherin 2, type 1, N-cadherin (neuronal) 1756 DMD dystrophin 2059 EPS8 epidermal growth factor receptor pathway substrate 8 2563 GABRD gamma-aminobutyric acid (GABA) A receptor, delta 3489 IGFBP6 insulin-like growth factor binding protein 6 4038 LRP4 low density lipoprotein receptor-related protein 4 4133 MAP2 microtubule-associated protein 2 5090 PBX3 pre-B-cell leukemia homeobox 3 6258 RXRG retinoid X receptor, gamma 6271 S100A1 S100 calcium binding protein A1 6447 SCG5 secretogranin V (7B2 protein) 6585 SLIT1 slit homolog 1 (Drosophila) 6715 SRD5A1 steroid-5-alpha-reductase, alpha polypeptide 1 (3- oxo-5 alpha-steroid delta 4-dehydrogenase alpha 1) 6920 TCEA3 transcription elongation factor A (SII), 3 7024 TFCP2 transcription factor CP2 7991 TUSC3 tumor suppressor candidate 3 10921 RNPS1 RNA binding protein S1, serine-rich domain 22807 IKZF2 IKAROS family zinc finger 2 (Helios) 23043 TNIK TRAF2 and NCK interacting kinase 23248 RPRD2 regulation of nuclear pre-mRNA domain containing 2 23362 PSD3 pleckstrin and Sec7 domain containing 3 25963 TMEM87A transmembrane protein 87A 55164 SHQ1 SHQ1 homo log (S. cerevisiae) 93035 PKHD1L1 polycystic kidney and hepatic disease 1 (autosomal recessive)-like 1 120892 LRRK2 leucine-rich repeat kinase 2 134548 SOWAHA ankyrin repeat domain 43 143872 ARHGAP42 Rho GTPase activating protein 42 153090 DAB2IP DAB2 interacting protein 164832 LONRF2 LON peptidase N-terminal domain and ring finger 2 165215 FAM171B family with sequence similarity 171, member B 200879 LIPH lipase, member H

TABLE B Entrez Gene ID Gene name Gene description 35 ACADS acyl-CoA dehydrogenase, C-2 to C-3 short chain 132 ADK adenosine kinase 134 ADORA1 adenosine A1 receptor 165 AEBP1 AE binding protein 1 334 APLP2 amyloid beta (A4) precursor-like protein 2 430 ASCL2 achaete-scute complex homolog 2 (Drosophila) 627 BDNF brain-derived neurotrophic factor 720 C4A complement component 4A (Rodgers blood group) 721 C4B complement component 4B (Chido blood group) 770 CA11 carbonic anhydrase XI 825 CAPN3 calpain 3, (p94) 835 CASP2 caspase 2, apoptosis-related cysteine peptidase 836 CASP3 caspase 3, apoptosis-related cysteine peptidase 894 CCND2 cyclin D2 953 ENTPD1 ectonucleoside triphosphate diphosphohydrolase 1 961 CD47 CD47 molecule 1001 CDH3 cadherin 3, type 1, P-cadherin (placental) 1014 CDH16 cadherin 16, KSP-cadherin 1188 CLCNKB chloride channel Kb 1271 CNTFR ciliary neurotrophic factor receptor 1281 COL3A1 collagen, type III, alpha 1 1290 COL5A2 collagen, type V, alpha 2 1465 CSRP1 cysteine and glycine-rich protein 1 1474 CST6 cystatin E/M 1499 CTNNB1 catenin (cadherin-associated protein), beta 1, 88 kDa 1508 CTSB cathepsin B 1611 DAP death-associated protein 1717 DHCR7 7-dehydrocholesterol reductase 1728 NQO1 NAD(P)H dehydrogenase, quinone 1 1730 DIAPH2 diaphanous homolog 2 (Drosophila) 1809 DPYSL3 dihydropyrimidinase-like 3 1837 DTNA dystrobrevin, alpha 1846 DUSP4 dual specificity phosphatase 4 1877 E4F1 E4F transcription factor 1 1889 ECE1 endothelin converting enzyme 1 1893 ECM1 extracellular matrix protein 1 1958 EGR1 early growth response 1 1967 EIF2B1 eukaryotic translation initiation factor 2B, subunit 1 alpha, 26 kDa 2065 ERBB3 v-erb-b2 erythroblastic leukemia viral oncogene homolog 3 (avian) 2115 ETV1 ets variant 1 2119 ETV5 ets variant 5 2167 FABP4 fatty acid binding protein 4, adipocyte 2202 EFEMP1 EGF containing fibulin-like extracellular matrix protein 1 2542 SLC37A4 solute carrier family 37 (glucose-6-phosphate transporter), member 4 2560 GABRB1 gamma-aminobutyric acid (GABA) A receptor, beta 1 2561 GABRB2 gamma-aminobutyric acid (GABA) A receptor, beta 2 2569 GABRR1 gamma-aminobutyric acid (GABA) receptor, rho 1 2581 GALC galactosylceramidase 2595 GANC glucosidase, alpha; neutral C 2635 GBP3 guanylate binding protein 3 2859 GPR35 G protein-coupled receptor 35 2869 GRK5 G protein-coupled receptor kinase 5 3014 H2AFX H2A histone family, member X 3098 HK1 hexokinase 1 3249 HPN hepsin 3476 IGBP1 immunoglobulin (CD79A) binding protein 1 3679 ITGA7 integrin, alpha 7 3682 ITGAE integrin, alpha E (antigen CD103, human mucosal lymphocyte antigen 1; alpha polypeptide) 3685 ITGAV integrin, alpha V (vitronectin receptor, alpha polypeptide, antigen CD51) 3710 ITPR3 inositol 1,4,5-triphosphate receptor, type 3 3751 KCND2 potassium voltage-gated channel, Shal-related subfamily, member 2 3977 LIFR leukemia inhibitory factor receptor alpha 4000 LMNA lamin A/C 4013 VWA5A von Willebrand factor A domain containing 5A 4050 LTB lymphotoxin beta (TNF superfamily, member 3) 4124 MAN2A1 mannosidase, alpha, class 2A, member 1 4128 MAOA monoamine oxidase A 4233 MET met proto-oncogene (hepatocyte growth factor receptor) 4240 MFGE8 milk fat globule-EGF factor 8 protein 4257 MGST1 microsomal glutathione S-transferase 1 4281 MID1 midline 1 (Opitz/BBB syndrome) 4301 MLLT4 myeloid/lymphoid or mixed-lineage leukemia (trithorax homolog, Drosophila); translocated to, 4 4524 MTHFR methylenetetrahydrofolate reductase (NAD(P)H) 4628 MYH10 myosin, heavy chain 10, non-muscle 4646 MYO6 myosin VI 4664 NAB1 NGFI-A binding protein 1 (EGR1 binding protein 1) 4665 NAB2 NGFI-A binding protein 2 (EGR1 binding protein 2) 4753 NELL2 NEL-like 2 (chicken) 4781 NFIB nuclear factor I/B 4897 NRCAM neuronal cell adhesion molecule 4907 NT5E 5′-nucleotidase, ecto (CD73) 4915 NTRK2 neurotrophic tyrosine kinase, receptor, type 2 4926 NUMA1 nuclear mitotic apparatus protein 1 4967 OGDH oxoglutarate (alpha-ketoglutarate) dehydrogenase (lipoamide) 5053 PAH phenylalanine hydroxylase 5066 PAM peptidylglycine alpha-amidating monooxygenase 5087 PBX1 pre-B-cell leukemia homeobox 1 5125 PCSK5 proprotein convertase subtilisin/kexin type 5 5162 PDHB pyruvate dehydrogenase (lipoamide) beta 5164 PDK2 pyruvate dehydrogenase kinase, isozyme 2 5166 PDK4 pyruvate dehydrogenase kinase, isozyme 4 5255 PHKA1 phosphorylase kinase, alpha 1 (muscle) 5270 SERPINE2 serpin peptidase inhibitor, clade E (nexin, plasminogen activator inhibitor type 1), member 2 5315 PKM pyruvate kinase, muscle 5362 PLXNA2 plexin A2 5365 PLXNB3 plexin B3 5371 PML promyelocytic leukemia 5504 PPP1R2 protein phosphatase 1, regulatory (inhibitor) subunit 2 5567 PRKACB protein kinase, cAMP-dependent, catalytic, beta 5650 KLK7 kallikrein-related peptidase 7 5655 KLK10 kallikrein-related peptidase 10 5725 PTBP1 polypyrimidine tract binding protein 1 5747 PTK2 PTK2 protein tyrosine kinase 2 5786 PTPRA protein tyrosine phosphatase, receptor type, A 5793 PTPRG protein tyrosine phosphatase, receptor type, G 5873 RAB27A RAB27A, member RAS oncogene family 5887 RAD23B RAD23 homolog B (S. cerevisiae) 5921 RASA1 RAS p21 protein activator (GTPase activating protein) 1 5981 RFC1 replication factor C (activator 1) 1, 145 kDa 6196 RPS6KA2 ribosomal protein S6 kinase, 90 kDa, polypeptide 2 6284 S100A13 S100 calcium binding protein A13 6297 SALL2 sal-like 2 (Drosophila) 6299 SALL1 sal-like 1 (Drosophila) 6385 SDC4 syndecan 4 6415 SEPW1 selenoprotein W, 1 6441 SFTPD surfactant protein D 6449 SGTA small glutamine-rich tetratricopeptide repeat (TPR)-containing, alpha 6569 SLC34A1 solute carrier family 34 (sodium phosphate), member 1 6695 SPOCK1 sparc/osteonectin, cwcv and kazal-like domains proteoglycan (testican) 1 6709 SPTAN1 spectrin, alpha, non-erythrocytic 1 (alpha-fodrin) 6812 STXBP1 syntaxin binding protein 1 6843 VAMP1 vesicle-associated membrane protein 1 (synaptobrevin 1) 7033 TFF3 trefoil factor 3 (intestinal) 7039 TGFA transforming growth factor, alpha 7048 TGFBR2 transforming growth factor, beta receptor II (70/80 kDa) 7050 TGIF1 TGFB-induced factor homeobox 1 7064 THOP1 thimet oligopeptidase 1 7069 THRSP thyroid hormone responsive 7088 TLE1 transducin-like enhancer of split 1 (E(sp1) homolog, Drosophila) 7159 TP53BP2 tumor protein p53 binding protein, 2 7164 TPD52L1 tumor protein D52-like 1 7224 TRPC5 transient receptor potential cation channel, subfamily C, member 5 7262 PHLDA2 pleckstrin homology-like domain, family A, member 2 7462 LAT2 linker for activation of T cells family, member 2 8170 SLC14A2 solute carrier family 14 (urea transporter), member 2 8202 NCOA3 nuclear receptor coactivator 3 8321 FZD1 frizzled homolog 1 (Drosophila) 8506 CNTNAP1 contactin associated protein 1 8557 TCAP titin-cap (telethonin) 8645 KCNK5 potassium channel, subfamily K, member 5 8654 PDE5A phosphodiesterase 5A, cGMP-specific 8714 ABCC3 ATP-binding cassette, sub-family C (CFTR/MRP), member 3 8848 TSC22D1 TSC22 domain family, member 1 8869 ST3GAL5 ST3 beta-galactoside alpha-2,3-sialyltransferase 5 8909 ENDOU endonuclease, polyU-specific 9076 CLDN1 claudin 1 9122 SLC16A4 solute carrier family 16, member 4 (monocarboxylic acid transporter 5) 9194 SLC16A7 solute carrier family 16, member 7 (monocarboxylic acid transporter 2) 9203 ZMYM3 zinc finger, MYM-type 3 9213 XPR1 xenotropic and polytropic retrovirus receptor 1 9223 MAGI1 membrane associated guanylate kinase, WW and PDZ domain containing 1 9249 DHRS3 dehydrogenase/reductase (SDR family) member 3 9353 SLIT2 slit homolog 2 (Drosophila) 9414 TJP2 tight junction protein 2 (zona occludens 2) 9455 HOMER2 homer homolog 2 (Drosophila) 9617 MTRF1 mitochondrial translational release factor 1 9688 NUP93 nucleoporin 93 kDa 9697 TRAM2 translocation associated membrane protein 2 9882 TBC1D4 TBC1 domain family, member 4 9902 MRC2 mannose receptor, C type 2 9931 HELZ helicase with zinc finger 9969 MED13 mediator complex subunit 13 10205 MPZL2 myelin protein zero-like 2 10241 CALCOCO2 calcium binding and coiled-coil domain 2 10351 ABCA8 ATP-binding cassette, sub-family A (ABC1), member 8 10454 TAB1 TGF-beta activated kinase 1/MAP3K7 binding protein 1 10551 AGR2 anterior gradient homolog 2 (Xenopus laevis) 10577 NPC2 Niemann-Pick disease, type C2 10585 POMT1 protein-O-mannosyltransferase 1 10810 WASF3 WAS protein family, member 3 10962 MLLT11 myeloid/lymphoid or mixed-lineage leukemia (trithorax homolog, Drosophila); translocated to, 11 11098 PRSS23 protease, serine, 23 11123 RCAN3 RCAN family member 3 11216 AKAP10 A kinase (PRKA) anchor protein 10 22925 PLA2R1 phospholipase A2 receptor 1, 180 kDa 23015 GOLGA8A golgin A8 family, member A 23052 ENDOD1 endonuclease domain containing 1 23077 MYCBP2 MYC binding protein 2 23081 KDM4C lysine (K)-specific demethylase 4C 23140 ZZEF1 zinc finger, ZZ-type with EF-hand domain 1 23154 NCDN neurochondrin 23211 ZC3H4 zinc finger CCCH-type containing 4 23220 DTX4 deltex homolog 4 (Drosophila) 23250 ATP11A ATPase, class VI, type 11A 23345 SYNE1 spectrin repeat containing, nuclear envelope 1 23348 DOCK9 dedicator of cytokinesis 9 23355 VPS8 vacuolar protein sorting 8 homolog (S. cerevisiae) 23493 HEY2 hairy/enhancer-of-split related with YRPW motif 2 23499 MACF1 microtubule-actin crosslinking factor 1 23514 SPIDR scaffolding protein involved in DNA repair 23541 SEC14L2 SEC14-like 2 (S. cerevisiae) 23635 SSBP2 single-stranded DNA binding protein 2 25797 QPCT glutaminyl-peptide cyclotransferase 25825 BACE2 beta-site APP-cleaving enzyme 2 25833 POU2F3 POU class 2 homeobox 3 25915 NDUFAF3 NADH dehydrogenase (ubiquinone) 1 alpha subcomplex, assembly factor 3 25976 TIPARP TCDD-inducible poly(ADP-ribose) polymerase 25987 TSKU tsukushi small leucine rich proteoglycan homolog (Xenopus laevis) 26022 TMEM98 transmembrane protein 98 26034 IPCEF1 interaction protein for cytohesin exchange factors 1 26224 FBXL3 F-box and leucine-rich repeat protein 3 26234 FBXL5 F-box and leucine-rich repeat protein 5 26297 SERGEF secretion regulating guanine nucleotide exchange factor 26470 SEZ6L2 seizure related 6 homolog (mouse)-like 2 26953 RANBP6 RAN binding protein 6 26960 NBEA neurobeachin 27112 FAM155B family with sequence similarity 155, member B 27241 BBS9 Bardet-Biedl syndrome 9 27344 PCSK1N proprotein convertase subtilisin/kexin type 1 inhibitor 28965 SLC27A6 solute carrier family 27 (fatty acid transporter), member 6 29087 THYN1 thymocyte nuclear protein 1 29781 NCAPH2 non-SMC condensin II complex, subunit H2 29798 C2ORF27A chromosome 2 open reading frame 27A 29842 TFCP2L1 transcription factor CP2-like 1 50509 COL5A3 collagen, type V, alpha 3 51115 RMDN1 regulator of microtubule dynamics 1 51195 RAPGEFL1 Rap guanine nucleotide exchange factor (GEF)- like 1 51310 SLC22A17 solute carrier family 22, member 17 51330 TNFRSF12A tumor necrosis factor receptor superfamily, member 12A 51364 ZMYND10 zinc finger, MYND-type containing 10 51377 UCHL5 ubiquitin carboxyl-terminal hydrolase L5 51479 ANKFY1 ankyrin repeat and FYVE domain containing 1 51566 ARMCX3 armadillo repeat containing, X-linked 3 51704 GPRC5B G protein-coupled receptor, family C, group 5, member B 51809 GALNT7 UDP-N-acetyl-alpha-D- galactosamine:polypeptide N- acetylgalactosaminyltransferase 7 (GalNAc-T7) 53405 CLIC5 chloride intracellular channel 5 53905 DUOX1 dual oxidase 1 54103 GSAP gamma-secretase activating protein 54344 DPM3 dolichyl-phosphate mannosyltransferase polypeptide 3 54470 ARMCX6 armadillo repeat containing, X-linked 6 54471 MIEF1 mitochondrial elongation factor 1 54532 USP53 ubiquitin specific peptidase 53 54587 MXRA8 matrix-remodelling associated 8 55129 ANO10 anoctamin 10 55220 KLHDC8A kelch domain containing 8A 55294 FBXW7 F-box and WD repeat domain containing 7 55339 WDR33 WD repeat domain 33 55450 CAMK2N1 calcium/calmodulin-dependent protein kinase II inhibitor 1 55521 TRIM36 tripartite motif containing 36 55558 PLXNA3 plexin A3 55650 PIGV phosphatidylinositol glycan anchor biosynthesis, class V 55652 SLC48A1 solute carrier family 48 (heme transporter), member 1 55740 ENAH enabled homolog (Drosophila) 55755 CDK5RAP2 CDK5 regulatory subunit associated protein 2 55813 UTP6 UTP6, small subunit (SSU) processome component, homolog (yeast) 56171 DNAH7 dynein, axonemal, heavy chain 7 56654 NPDC1 neural proliferation, differentiation and control, 1 56848 SPHK2 sphingosine kinase 2 56928 SPPL2B signal peptide peptidase-like 2B 56999 ADAMTS9 ADAM metallopeptidase with thrombospondin type 1 motif, 9 57121 LPAR5 lysophosphatidic acid receptor 5 57154 SMURF1 SMAD specific E3 ubiquitin protein ligase 1 57184 FAM219B chromosome 15 open reading frame 17 57185 NIPAL3 NIPA-like domain containing 3 57214 CEMIP cell migration inducing protein, hyaluronan binding 57474 ZNF490 zinc finger protein 490 57477 SHROOM4 shroom family member 4 57493 HEG1 HEG homolog 1 (zebrafish) 57639 CCDC146 coiled-coil domain containing 146 57664 PLEKHA4 pleckstrin homology domain containing, family A (phosphoinositide binding specific) member 4 58480 RHOU ras homolog gene family, member U 60314 C12ORF10 chromosome 12 open reading frame 10 63891 RNF123 ring finger protein 123 64091 POPDC2 popeye domain containing 2 64478 CSMD1 CUB and Sushi multiple domains 1 64769 MEAF6 MYST/Esa1-associated factor 6 65986 ZBTB10 zinc finger and BTB domain containing 10 79143 MBOAT7 membrane bound O-acyltransferase domain containing 7 79159 NOL12 nucleolar protein 12 79365 BHLHE41 basic helix-loop-helix family, member e41 79745 CLIP4 CAP-GLY domain containing linker protein family, member 4 79852 EPHX3 epoxide hydrolase 3 79856 SNX22 sorting nexin 22 79875 THSD4 thrombospondin, type I, domain containing 4 79897 RPP21 ribonuclease P/MRP 21 kDa subunit 79968 WDR76 WD repeat domain 76 80003 PCNXL2 pecanex-like 2 (Drosophila) 80714 PBX4 pre-B-cell leukemia homeobox 4 81847 RNF146 ring finger protein 146 81849 ST6GALNAC5 ST6 (alpha-N-acetyl-neuraminyl-2,3-beta- galactosyl-1,3)-N-acetylgalactosaminide alpha- 2,6-sialyltransferase 5 83660 TLN2 talin 2 83891 SNX25 sorting nexin 25 84220 RGPD5 RANBP2-like and GRIP domain containing 5 84239 ATP13A4 ATPase type 13A4 84417 C2ORF40 chromosome 2 open reading frame 40 84527 ZNF559 zinc finger protein 559 84561 SLC12A8 solute carrier family 12 (potassium/chloride transporters), member 8 84705 GTPBP3 GTP binding protein 3 (mitochondrial) 84954 MPND MPN domain containing 89797 NAV2 neuron navigator 2 89866 SEC16B SEC16 homolog B (S. cerevisiae) 89927 C16ORF45 chromosome 16 open reading frame 45 90161 HS6ST2 heparan sulfate 6-O-sulfotransferase 2 90231 KIAA2013 KIAA2013 90627 STARD13 StAR-related lipid transfer (START) domain containing 13 91775 NXPE3 family with sequence similarity 55, member C 92014 SLC25A51 mitochondrial carrier triple repeat 1 93611 FBXO44 F-box protein 44 113201 CASC4 cancer susceptibility candidate 4 113444 SMIM12 small integral membrane protein 12 114800 CCDC85A coiled-coil domain containing 85A 115353 LRRC42 leucine rich repeat containing 42 122786 FRMD6 FERM domain containing 6 124056 NOXO1 NADPH oxidase organizer 1 125206 SLC5A10 solute carrier family 5 (sodium/glucose cotransporter), member 10 126133 ALDH16A1 aldehyde dehydrogenase 16 family, member A1 129285 PPP1R21 KLRAQ motif containing 1 140469 MYO3B myosin IIIB 140688 NOL4L nucleolar protein 4-like 146439 CCDC64B coiled-coil domain containing 64B 149175 MANEAL mannosidase, endo-alpha-like 149461 CLDN19 claudin 19 154467 CCDC167 chromosome 6 open reading frame 129 155054 ZNF425 zinc finger protein 425 158158 RASEF RAS and EF-hand domain containing 163702 IFNLR1 interferon, lambda receptor 1 166929 SGMS2 sphingomyelin synthase 2 168391 GALNTL5 UDP-N-acetyl-alpha-D- galactosamine:polypeptide N- acetylgalactosaminyltransferase-like 5 196410 METTL7B methyltransferase like 7B 202374 STK32A serine/threonine kinase 32A 222171 PRR15 proline rich 15 253970 SFTA3 surfactant associated 3 283208 P4HA3 prolyl 4-hydroxylase, alpha polypeptide III 283316 CD163L1 CD163 molecule-like 1 284418 FAM71E2 family with sequence similarity 71, member E2 285180 RUFY4 RUN and FYVE domain containing 4 285533 RNF175 ring finger protein 175 286144 TRIQK chromosome 8 open reading frame 83 286256 LCN12 lipocalin 12 340595 ZCCHC16 zinc finger, CCHC domain containing 16 342184 FMN1 formin 1 373156 GSTK1 glutathione S-transferase kappa 1 386653 IL31 interleukin 31 400746 NCMAP chromosome 1 open reading frame 130 401474 SAMD12 sterile alpha motif domain containing 12 440270 GOLGA8B golgin A8 family, member B 440335 SMIM22 small integral membrane protein 22 645121 CCNI2 cyclin I family, member 2 727936 GXYLT2 glucoside xylosyltransferase 2 728492 SERF1B small EDRK-rich factor 1B (centromeric) 100131187 TSTD1 thiosulfate sulfurtransferase (rhodanese)-like domain containing 1 100293534 C4B_2 complement component 4B (Chido blood group), copy 2 100509091 LOC100509091 extracellular matrix protein 2-like

For each gene included in Table A and in Table B, a most preferred sequence (or domain) to be targeted for measuring gene expression according to the invention is provided in Table C. Accordingly, measuring BCL9 preferably comprises measuring a target sequence comprised in anyone of the sequences listed as SEQ ID NOs: 52 to 54 in Table C; measuring ENTPD2 preferably comprises measuring a target sequence comprised in SEQ ID NO: 205 as listed in Table C, etc.

Specific combinations of target gene products are provided in the following table D, which combinations can provide strong specificity and sensitivity for detection of thyroid cancer:

TABLE D Combinations of marker genes Signature # Expression Product(s) 1 CITED1 (several exons) 2 CITED1 and TENM1 3 TENM1, CITED1, CCM2, SCLY 4 CITED1, TENM1, CCM2, SCLY and IGSF10 F TENM1, CITED1, CCM2, SCLY, FRMD3, IGSF10 D TENM1, CITED1, CCM2, SCLY, FRMD3, IGSF10 + all genes of table A B TENM1, CITED1, CCM2, SCLY, FRMD3, IGSF10 + all genes of table A + all gene of Table B

Methods for Measuring Gene Expression Products

Within the context of the invention, the “measure” of a gene or gene expression product designates a measure or determination of the presence, absence, amount or alteration of such gene product. More preferably, the term “measure” or “measuring” designates a determination of the presence or amount of a gene product or domain, or of the level of expression of a gene. The gene product may be a RNA (e.g., a messenger RNA) or a polypeptide (or protein).

In a first preferred embodiment, the gene product is an RNA (which may be converted during the method into a cDNA). Various techniques for detecting a nucleic acid (e.g., RNA) in a sample can be used in the present invention, such as for example northern blot, selective hybridisation, the use of supports covered with oligonucleotide probes, nucleic acid amplification such as for example RT-PCR, quantitative PCR or ligation-PCR, etc. These methods can include the use of a nucleic probe (for example an oligonucleotide) capable of detecting selectively or specifically the target nucleic acid in the sample. Amplification can be performed according to various methods known to the person skilled in the art, such as PCR, LCR, transcription mediated amplification (TMA), strand displacement amplification (SDA), NASBA, the use of allele specific oligonucleotides (ASO), allele specific amplification, RNAseq. Detection can also be made using, e.g., Southern blot, single-strand conformation analysis (SSCA), in situ hybridisation (e.g., FISH), gel migration, heteroduplex analysis, NextGen sequencing, etc.

According to a preferred embodiment, the method comprises determining the presence or absence or (relative) amount of an RNA encoded by a target gene as defined above, preferably by selective hybridisation or selective amplification.

Measure by Selective Hybridization

Selective hybridisation is typically performed using nucleic probes, preferably immobilised on a support, such as a solid or semi-solid support having at least one surface, flat or not, for immobilising nucleic probes. Such supports are, for example, a slide, bead, membrane, filter, column, plate, etc. They can be made out of any compatible material, such as in particular glass, silica, plastic, fiber, metal, polymer, etc. The nucleic probes can be any nucleic acid (DNA, RNA, PNA, etc.), preferably single-stranded, with a sequence specific to a target RNA or DNA molecule. The probes typically comprise from 5 to 400 bases, preferably from 8 to 200, more preferentially less than 100, and even more preferentially less than 75, 60, 50, 40 or even 30 bases. The probes can be synthetic oligonucleotides, produced on the basis of the sequences of the target genes, according to standard synthesis techniques. Such oligonucleotides typically comprise from 10 to 50 bases, preferably from 20 to 40, for example approximately 25 bases. In a particularly advantageous embodiment, so as to improve the detection of signal, several different oligonucleotides (or probes) are used to detect the same target molecule (transcribed from the amplification of the patient's RNA to produce either cRNA or cDNA) during hybridisation. This may include specific oligonucleotides of various regions of the same target sequence, or centred differently on a given region. Advantageously, use is made of probe sets comprising 1-3 probes, which can be overlapping or not, completely or partially, and which are specific of the same target molecule. Use can also be made of probe pairs, in which one member is paired perfectly with the target sequence, and the other presents a mismatch, thus making it possible to estimate background signal. Probes can be designed to hybridise with a region of an exon or an intron, or with an exon-exon or exon-intron junction region. Thus, the probes make it possible to reveal and to distinguish various alternative spliced isoforms.

In a preferred embodiment, use is made of probes whose sequence comprises all or part of a nucleic acid sequence selected from anyone of SEQ ID NOs: 1-918 or of a sequence complementary thereto. In a preferred mode, use is made of nucleic acid probes having a length between 15 and 50 bases, more preferentially between 15 and 40 bases, and whose sequence is identical to a fragment of a sequence selected from anyone of SEQ ID NOs: 1-918 or of a sequence complementary thereto. The probe can also be designed in the opposite orientation. Such probes constitute another object of the present application, as well as the use thereof for diagnosing thyroid cancer in a subject.

Specific examples of probes are provided in Table E. These probes have been designed to bind target sequences as disclosed in Table C. Further probes can be designed using information provided in the invention, directed specifically to each target sequence of Table C. Each probe as disclosed in Table E represents a specific object of the invention.

TABLE E SEQ Probe Set ID Probe ID Probe Sequence ID # HSX2_01064533 HSX2_01064533-39 CACCGCTGAGCTGCCGAGAGGAAG 919 HSX2_01064533-104 GCAGTTCTCGGTGAGGAGGAAGAG 920 HSX2_01064539 HSX2_01064539-42 TCCAACTTCTGCCAAGGCTCTGAA 921 HSX2_01064539-77 GTCGAGGCCTGCACTTGATGTCAA 922 HSX2_01064543 HSX2_01064543-27 GGCCTACTCCAACCTTGCGGTGAA 923 HSX2_01064543-46 GTGAAAGATCGCAAAGCAGTGGCC 924 HSX2_01064546 HSX2_01064546-23 CCTCGGGATCTCCAATAGGCTCTC 925 HSX2_01064546-24 CTCGGGATCTCCAATAGGCTCTCC 926 HSX2_01064547 HSX2_01064547-31 CACTTGCTGGCTAGTATGCACCTG 927 HSX2_01064547-166 TCACTCTCTCCTTCTGCTGGTGCC 928 HSX2_01064548 HSX2_01064548-32 ATGAGGAAGTGCTGATGTCGCTGG 929 HSX2_01064548-127 ACTGCGGACTTTCCATCTAGCTGC 930 HSX2_01477556 HSX2_01477556-78 GCAAACCCTACCAGCCTCTACCAA 931 HSX2_01477556-189 GGGAGACCCTGCACGAGTATAACC 932 HSX2_01477563 HSX2_01477563-15 CCTGTTTGTTGTGACATGGAGGCT 933 HSX2_01477563-23 TTGTGACATGGAGGCTCAAGCTGG 934 HSX2_01477568 HSX2_01477568-13 GCCCACACAACCAGTTCACCTTCA 935 HSX2_01477568-174 AGCACGCAGGATTCAGTCCATCTG 936 HSX2_01477573 HSX2_01477573-25 TGGTTCCTCTGCGATCTTCAGTGC 937 HSX2_01477573-189 GCGCCACTGCAATCACAGTGACTT 938 HSX2_01477615 HSX2_01477615-1 CTCACTACTTAGATGCTGTCCGAG 939 HSX2_01477615-1 CTCACTACTTAGATGCTGTCCGAG 940 HSX2_01477625 HSX2_01477625-72 GGCTCACCAGATCCTCTTGACCTC 941 HSX2_01477625-106 GCCAAACTCTCTTCTCTCAGCACA 942 HSX2_01477635 HSX2_01477635-73 GAGAACACTCTGGTTGCCTTGGAA 943 HSX2_01477635-192 TGCTTCCTTCACCGCTCACATCAT 944 HSX2_01477640 HSX2_01477640-81 CCTGCTACGGATCCTTCTGACACA 945 HSX2_01477640-162 ACTCACACAGAAGTGGTTTCCCGC 946 HSX2_01477645 HSX2_01477645-41 TCTCTGGGAGCAAAGGACAGTCGT 947 HSX2_01477645-87 GCTTCTAACCTAGGAGGCTGGTCT 948 HSX2_01477665 HSX2_01477665-35 TGTGGATGGGACTATGATTCGCAA 949 HSX2_01477665-106 TGACTTCCACACAACCACTGAGCT 950 HSX2_01477675 HSX2_01477675-104 TCGTACCATCAGCAGGAACCAAGC 951 HSX2_01477675-288 ACCAGCAGCAATGGCAATTCAGTG 952 HSX2_01477695 HSX2_01477695-17 TACACAGCCAGCGGCGTTACATCT 953 HSX2_01477695-242 ACAAGTACACCAAGCAAGCAAGGC 954 HSX2_01477710 HSX2_01477710-333 CCTGGTGCTCATCGGTAACACTGG 955 HSX2_01477710-515 ACGTGTTGGAGATTGCCAGACAGC 956 HSX2_01477711 HSX2_01477711-469 CAGCCACCATCTCCTAGAGTGAGG 957 HSX2_01477711-4356 ACAGGTTCATGTTCTCTGGCTGCA 958 HSX2_01771392 HSX2_01771392-460 AGAACCGTCCTCCAGTGGTGAAGC 959 HSX2_01771392-673 TCCAGAGTGGTCTCTTCTCAGGCC 960 HSX2_02073060 HSX2_02073060-1 CCACATCCAGTTCCACCACCAATG 961 HSX2_02073060-141 CAGGACTCAGCATGATGGACAGTG 962 HSX2_02319619 HSX2_02319619-4 CCTGAGGTGCACAGAGCCAACATT 963 HSX2_02319619-6 TGAGGTGCACAGAGCCAACATTAC 964 HSX2_02487762 HSX2_02487762-163 CCAGTTGCCTAGTGTCCACCTCCT 965 HSX2_02487762-422 ATGCAGGCTCACTTTTCCACATGT 966 HSX2_02509166 HSX2_02509166-208 CACTTGCTGGCTAGTATGCACCTG 967 HSX2_02509166-401 ATGAGGAAGTGCTGATGTCGCTGG 968

An object of the invention thus relates to a nucleic acid having anyone of the nucleotide sequences as described in Table E, as well as to the use of these nucleic acids for diagnosing thyroid cancer.

The probes can be synthesised in advance and then deposited on the support, or synthesised directly in situ, on the support, according to methods known to the person skilled in the art. The probes can also be manufactured by genomic or molecular techniques, for example by amplification, recombination, ligation, etc.

The probes can by hybridized with nucleic acids, preferably RNAs contained in test samples under standard, conventional conditions allowing specific hybridization to occur. Hybridisation can be performed under standard conditions, known to and adjustable by the person skilled in the art (see Sambrook, Fritsch, Maniatis (1989) Molecular Cloning, Cold Spring Harbor Laboratory Press). Most notably, hybridisation can be performed under conditions of high, medium or low stringency, according to the level of sensitivity needed, the quantity of material available, etc. For example, suitable hybridisation conditions include a temperature between 55° C. and 63° C. for 2 hours to 18 hours. Other hybridisation conditions, adapted to high density supports, are for example a hybridisation temperature between 45° C. and 55° C. After hybridisation, various washes can be performed to eliminate the non-hybridised molecules, typically in SSC buffers including SDS, such as a buffer comprising 0.1× to 10×SSC and 0.5% to 0.01% SDS. Other wash buffers containing SSPE, MES, NaCl or EDTA can also be used.

In a typical embodiment, the nucleic acids (or arrays or supports) are pre-hybridised in hybridisation buffer (Rapid Hybrid Buffer, Amersham) typically containing 100 μg/ml of salmon sperm DNA at 65° C. for 30 min. The nucleic acids of the sample are then placed in contact with the probes (typically applied to the support or the array) at 65° C. for 2 hours to 18 hours. Preferably, the nucleic acids of the sample are marked beforehand by any known marker (biotin, radioactive, enzymatic, fluorescent, luminescent, etc.). The supports are then washed in 5×SSC, 0.1% SDS buffer at 65° C. for 30 min., then in a 0.2×SSC, 0.1% SDS buffer. The expression profile is analysed according to standard techniques, such as for example by measuring labelling on the support by means of a suitable instrument (for example InstantImager, Packard Instruments). Hybridisation conditions naturally can be adjusted by the person skilled in the art, for example by modifying hybridisation temperature and/or the salt concentration of the buffer as well as by adding auxiliary substances such as formamide or single-strand DNA.

A particular object of the invention thus resides in a method to diagnose thyroid cancer in mammals comprising contacting, under conditions allowing hybridisation between complementary sequences to occur, (i) nucleic acids from a sample from the subject and (ii) a set of probes specific of target gene expression products as defined above; and diagnosing thyroid cancer by measuring hybridization to determine expression values and comparing said values to a reference value.

In a preferred embodiment, the method uses:

-   -   from 1 to 5 probes, preferably from 1 to 3, typically 2,         overlapping or not, each comprising all or part of the sequence         of CITED1 gene, preferably of anyone of the sequences listed as         SEQ ID NOs: 106-119, or of a sequence complementary thereto; and     -   from 1 to 5 probes, preferably from 1 to 3, typically 2,         overlapping or not, each comprising all or part of the sequence         of TENM1 gene, preferably of anyone of the sequences listed as         SEQ ID NOs: 817-838, or of a sequence complementary thereto,

wherein the term “part” advantageously indicates a region of 15 to 50 consecutive nucleotides, preferably of 15 to 30 nucleotides, even more preferably of 20-30 nucleotides.

In a more preferred embodiment, the method uses:

-   -   from 1 to 5 probes, preferably from 1 to 3, typically 2,         overlapping or not, each comprising all or part of the sequence         of CITED1 gene or of a sequence complementary thereto,         preferably of anyone of the sequences listed as SEQ ID NOs:         106-119, or of a sequence complementary thereto;     -   from 1 to 5 probes, preferably from 1 to 3, typically 2,         overlapping or not, each comprising all or part of the sequence         of TENM1 gene or of a sequence complementary thereto, preferably         of anyone of the sequences listed as SEQ ID NOs: 817-838, or of         a sequence complementary thereto; and     -   from 1 to 5 probes, preferably from 1 to 3, typically 2,         overlapping or not, each comprising all or part of the sequence         of SCLY gene or of a sequence complementary thereto, preferably         of SEQ ID NO: 749, or of a sequence complementary thereto;

wherein the term “part” advantageously indicates a region as defined above.

In a particularly preferred embodiment, the method uses:

-   -   from 1 to 5 probes, preferably from 1 to 3, typically 2,         overlapping or not, each comprising all or part of the sequence         of CITED1 gene or of a sequence complementary thereto,         preferably of anyone of the sequences listed as SEQ ID NOs:         106-119, or of a sequence complementary thereto;     -   from 1 to 5 probes, preferably from 1 to 3, typically 2,         overlapping or not, each comprising all or part of the sequence         of TENM1 gene or of a sequence complementary thereto, preferably         of anyone of the sequences listed as SEQ ID NOs: 817-838, or of         a sequence complementary thereto;     -   from 1 to 5 probes, preferably from 1 to 3, typically 2,         overlapping or not, each comprising all or part of the sequence         of SCLY gene or of a sequence complementary thereto, preferably         of SEQ ID NO: 749, or of a sequence complementary thereto;     -   from 1 to 5 probes, preferably from 1 to 3, typically 2,         overlapping or not, each comprising all or part of the sequence         of CCM2 gene or of a sequence complementary thereto, preferably         of SEQ ID NO: 83, or of a sequence complementary thereto;     -   from 1 to 5 probes, preferably from 1 to 3, typically 2,         overlapping or not, each comprising all or part of the sequence         of IGSF10 gene or of a sequence complementary thereto,         preferably of SEQ ID NO: 335, or of a sequence complementary         thereto; and     -   from 1 to 5 probes, preferably from 1 to 3, typically 2,         overlapping or not, each comprising all or part of the sequence         of FRMD3 gene or of a sequence complementary thereto, preferably         of anyone of the sequences listed as SEQ ID NOs: 249 to 269, or         of a sequence complementary thereto;

wherein the term “part” advantageously indicates a region as defined above.

In another preferred embodiment, the method uses:

-   -   at least 1 probe that specifically hybridizes with exon 4 of the         sequence of CITED1 gene or of a sequence complementary thereto;         and     -   at least 1 probe that specifically hybridizes with exon 3 of the         sequence of CITED1 gene or of a sequence complementary thereto         and,     -   at least 1 probe that specifically hybridizes with exon(−2) of         the sequence of CITED1 gene or of a sequence complementary         thereto.

In another preferred embodiment, the method uses:

-   -   at least 1 probe that specifically hybridizes with exon1, 3, 13,         or 15, of the sequence of TENM1 gene or of a sequence         complementary thereto; and     -   at least 1 probe that specifically hybridizes with exon17, 18,         19, 25, or 32 of the sequence of TENM1 gene or of a sequence         complementary thereto.

The invention may utilize additional probes specific for any group or combination of target genes of the invention, as preferably listed in the above table.

Measure by Selective Amplification

Selective amplification is preferably performed using a primer or a pair of primers to amplify all or part of one of the target nucleic acids in the sample, when the target nucleic acid is present. The primer can be specific for a target sequence according to anyone of SEQ ID NOs: 1 to 918, or for a region flanking the target sequences in a nucleic acid of the sample. The primer typically comprises a single-strand nucleic acid, with a length advantageously between 5 and 50 bases, preferably between 5 and 30 bases. Such a primer constitutes another object of the present application, as well as the use thereof (primarily in vitro) for diagnosing thyroid cancer in a subject. The primers can be designed to hybridise with a region of an exon or an intron, or with an exon-exon or exon-intron junction region. Thus, the primers reveal and distinguish various forms of gene splicing.

In this respect, another object of the invention resides in the use of a set of nucleotide primers comprising at least 2 pairs of primers, each pair of primers comprising a sense and/or antisense nucleic acid primers complementary to and specific of a target nucleic acid selected from anyone of the sequences listed as SEQ ID NOs: 1-918, or the complementary strand thereof, for in vitro or ex vivo diagnosis of thyroid cancer in a subject.

Another specific object of the invention resides in a method to diagnose thyroid cancer in mammals, comprising contacting, under conditions allowing amplification, nucleic acids from a sample from mammals and a set of primers comprising at least 2 pairs of primers, each pair of primers comprising nucleic acid primers complementary to and specific of a target nucleic acid selected from anyone of the sequences listed as SEQ ID NOs: 1-918 or the complementary strand thereof to obtain an amplification profile, and comparing said amplification profile to a reference value to diagnose thyroid cancer.

The invention also relates to a composition or kit comprising a set of primers comprising at least 2 pairs of primers, each pair of primers comprising a sense and/or antisense nucleic acid primers complementary to and specific of a target nucleic acid selected from anyone of the sequences listed as SEQ ID NOs: 1-918 or the complementary strand thereof.

Measuring Polypeptide

In another embodiment, the method comprises the measurement of a polypeptide encoded by a target gene such as defined previously. Measuring or assaying a polypeptide in a sample can be performed by any known technique, most notably by means of a specific ligand, for example an antibody or an antibody fragment or derivative. Preferably, the ligand is a specific antibody of the polypeptide, or a fragment of such an antibody (for example Fab, Fab′, CDR, etc.), or a derivative of such an antibody (for example a single-chain variable-fragment antibody, scFv). The ligand is typically immobilised on a support, such as a slide, bead, column, plate, etc. The presence or quantity of target polypeptide in the sample can be detected by revealing a complex between the target and the ligand, for example by using a labelled ligand or by using a second labelled indicator ligand, etc. Immunological techniques that can be used and are well known are ELISA, IHC and RIA techniques, etc. If necessary, the quantity of polypeptide detected can be compared to a reference value, for example a median or mean value observed among patients who do or do not have thyroid cancer, or with a value measured in parallel in a control sample. Thus, it is possible to demonstrate variation in expression levels.

Specific antibodies of target polypeptides can be produced by conventional techniques, most notably by immunization of a non-human mammal with an immunogen comprising the polypeptide (or an immunogenic fragment thereof), and recovery of the antibodies (polyclonal) or cells producing monoclonal antibodies. Production techniques for polyclonal or monoclonal antibodies, single-chain variable-fragment antibodies and human or humanised antibodies are described for example in Harlow et al., A Laboratory Manual, CSH Press, 1988; Ward et al., Nature 341 (1989) 544; Bird et al., Science 242 (1988) 423; WO 94/02602; U.S. Pat. No. 5,223,409; U.S. Pat. No. 5,877,293 and WO 93/01288. The immunogen can be produced by synthesis, or by expression, in a suitable host, of a nucleic acid target such as defined previously. Such antibodies, monoclonal or polyclonal, as well as derivatives with the same antigenic specificity, constitute further objects of the present application, as well as the use thereof to diagnose thyroid cancer.

Changes in protein expression and/or structure can also be detected by means of techniques, known by the person skilled in the art, involving mass spectroscopy, more generally grouped under the name proteome analysis.

Implementation of the Method

The method of the invention is applicable to any biological sample from the tested mammal, most notably any nature of sample that includes nucleic acids or polypeptides from a thyroid cell, most preferably from a thyroid lesion or nodule. Specific examples include any tissue, organ or biological fluid that includes nucleic acids or polypeptides from a thyroid cell, most preferably from a thyroid lesion or nodule. Most preferred samples are a tissue biopsy from thyroid, or a fine needle thyroid aspirate.

In one preferred and particularly advantageous embodiment, the sample is a sample collected by the physician for cytological analysis of the subject's thyroid lesion or nodules. Upon completion of such cytological analysis, if the status of the sample is indeterminate, then this sample may be used to perform the current test.

The sample can be obtained by any known technique, for example by drawing, by non-invasive techniques, or from sample collections or biobanks, etc. Further, the sample can be pre-treated to facilitate access to the target molecules, for example by lysis (mechanical, chemical, enzymatic, etc.), purification, centrifugation, separation, etc. The sample can also be labelled to facilitate the determination of the presence of target molecules (biotin, fluorescent, radioactive, luminescent, chemical or enzymatic labelling, etc.). The nucleic acids of the sample can in addition be separated, treated, enriched, purified, reverse transcribed, amplified, fragmented, etc. In a particular embodiment, the nucleic acids of the sample are RNAs, most notably mRNA of the sample. In a very specific embodiment, the nucleic acids are the product of amplification of RNA, most notably of mRNA, or cDNA prepared from RNA, most notably mRNA of the sample.

In a particular embodiment, the method comprises:

-   -   a) providing a biological sample from a subject having a thyroid         condition (e.g. a thyroid lesion or nodule) or suspected to have         a thyroid condition; and     -   b) measuring in said biological sample the expression product of         genes as defined above.

In a further particular embodiment, the invention is conducted after a cytological exam and allows the diagnosis of patient samples remaining “indeterminate” after said cytological exam. In this regard, a particular method of the invention comprises:

-   -   a) the provision (e.g., the collection) of a biological sample         from the subject having a thyroid condition or suspected to have         a thyroid condition;     -   b) a cytological exam of the sample to classify the thyroid         condition (e.g., in a category comprised between 1 and 6)         according to the Bethesda classification, and     -   c) for any sample of indeterminate cytology, the measurement of         the expression product of target genes as described above.

In a typical embodiment, the method measures a gene expression product and compares such expression signal to a reference value in order to diagnose thyroid cancer. In this regard, the reference value may be any control value, or any mean value in healthy subjects, or 2 reference values characteristic of a diseased and a non-diseased subject, respectively. In this regard, in a preferred embodiment of the invention, the measured value is compared to a reference value of a control benign thyroid condition and to a reference value of a control malignant thyroid condition, wherein, when the measured value is closer to the reference value of the control benign thyroid condition, then the tested thyroid condition is benign, and when the measured value is closer to the reference value of the control malignant thyroid condition, then the tested thyroid condition is malignant.

The invention is applicable to any mammal, preferably human beings. The data provided in the examples show that the invention can detect the presence of malignant or benign lesions when the cytology was unable to provide a diagnostic result. 60 samples (40 benign and 20 malignant lesions) were used to validate the relevance of the invention, which addresses a clinical unmet need and allows reduction or avoidance of unnecessary surgeries.

Another object of the present application relates to a product comprising a support on which are immobilised nucleic acids comprising a sequence complementary to and/or specific for at least 2 genes selected from CITED1, TENM1, SCXLY, CCM2 and IGSF10 or the complementary strand thereof, more preferably at least 3, 4 or 5; or for at least 2 distinct domains of an expression product of at least one gene selected from CITED1, TENM1, SCXLY, CCM2 and IGSF10, more preferably at least 3, 4 or 5.

A particular object of the invention relates to a product comprising a support on which are immobilised:

-   -   at least 1 probe that specifically hybridizes with an RNA         encoded by a CITED1 gene; and     -   at least 1 probe that specifically hybridizes with an RNA         encoded by a TENM1 gene.

A particular object of the invention relates to a product comprising a support on which are immobilised:

-   -   at least 1 probe that specifically hybridizes with exon 4 of the         sequence of CITED1 gene or of a sequence complementary thereto;         and/or     -   at least 1 probe that specifically hybridizes with exon 3 of the         sequence of CITED1 gene or of a sequence complementary thereto,         and/or     -   at least 1 probe that specifically hybridizes with exon (−2) of         the sequence of CITED1 gene or of a sequence complementary         thereto.

Another particular object of the invention relates to a product comprising a support on which are immobilised:

-   -   at least 1 probe that specifically hybridizes with exon1, 3, 13,         or 15, of the sequence of TENM1 gene or of a sequence         complementary thereto; and     -   at least 1 probe that specifically hybridizes with exon17, 18,         19, 25, or 32 of the sequence of TENM1 gene or of a sequence         complementary thereto.

Another particular object of the invention relates to a product comprising a support on which is immobilised:

-   -   from 1 to 5 probes, overlapping or not, each comprising all or         part of the sequence of CITED1 gene or of a sequence         complementary thereto; and     -   from 1 to 5 probes, overlapping or not, each comprising all or         part of the sequence of TENM1 gene or of a sequence         complementary thereto,

wherein, the term “part” is as defined above.

Another particular object of the invention relates to a product comprising a support on which is immobilised:

-   -   from 1 to 5 probes, preferably from 1 to 3, typically 2,         overlapping or not, each comprising all or part of the sequence         of CITED1 gene or of a sequence complementary thereto,         preferably all or part of anyone of the sequences listed as SEQ         ID NOs: 106-119, or of a sequence complementary thereto;     -   from 1 to 5 probes, preferably from 1 to 3, typically 2,         overlapping or not, each comprising all or part of the sequence         of TENM1 gene or of a sequence complementary thereto, preferably         all or part of anyone of the sequences listed as SEQ ID NOs:         817-838, or of a sequence complementary thereto;     -   from 1 to 5 probes, preferably from 1 to 3, typically 2,         overlapping or not, each comprising all or part of the sequence         of SCLY gene or of a sequence complementary thereto, preferably         of SEQ ID NO: 749, or of a sequence complementary thereto;     -   from 1 to 5 probes, preferably from 1 to 3, typically 2,         overlapping or not, each comprising all or part of the sequence         of CCM2 gene or of a sequence complementary thereto, preferably         of SEQ ID NO: 83, or of a sequence complementary thereto;     -   from 1 to 5 probes, preferably from 1 to 3, typically 2,         overlapping or not, each comprising all or part of the sequence         of IGSF10 gene or of a sequence complementary thereto,         preferably of SEQ ID NO: 335, or of a sequence complementary         thereto; and     -   from 1 to 5 probes, preferably from 1 to 3, typically 2,         overlapping or not, each comprising all or part of the sequence         of FRMD3 gene or of a sequence complementary thereto, preferably         all or part of anyone of the sequences listed as SEQ ID NOs: 249         to 269, or of a sequence complementary thereto;

wherein the term “part” advantageously indicates a region as defined above.

The invention also relates to a kit comprising a product such as defined previously and reagents for a hybridisation reaction.

The invention further relates to the use of a product or kit defined above for in vitro or ex vivo diagnosis of thyroid cancer in a subject.

Another object of the present application relates to a product comprising a support on which is immobilised at least two ligands that specifically bind a polypeptide coded by at least 2 genes selected from CITED1, TENM1, CCM2, SCLY, IGSF10 and FRMD3.

The support can be any solid or semi-solid support having at least one surface, flat or not (i.e., in two or three dimensions), allowing the immobilisation of nucleic acids or polypeptides. Such supports are for example a slide, bead, membrane, filter, column, plate, etc. They can be made of any compatible material, such as most notably glass, silica, plastic, fibre, metal, polymer, polystyrene, Teflon, etc. The reagents can be immobilised on the surface of the support by known techniques, or, in the case of nucleic acids, synthesised directly in situ on the support. Immobilisation techniques include passive adsorption (Inouye et al., J. Clin. Microbiol. 28 (1990) 1469) and covalent bonding. Techniques are described for example in WO 90/03382 and WO 99/46403. The reagents immobilised on the support can be placed in a predetermined order, to facilitate detection and identification of the complexes formed, and according to a variable and adaptable density.

In one embodiment, the inventive product comprises a multiplicity of synthetic oligonucleotides, of length between 5 and 100 bases, and specific for one or more genes or RNAs such as previously defined.

The products of the invention typically comprise control molecules, which are used to calibrate and/or standardise the results.

Another object of the present application relates to a kit comprising a compartment or container comprising at least one, preferably several, nucleic acids comprising a complementary and/or specific sequence of one or more genes or RNAs such as previously defined and/or one, preferably several ligands of one or more polypeptides such as previously defined. Preferably, the product comprises at least 5 distinct nucleic acids and/or ligands selected from the nucleic acids and ligands mentioned above.

Another object of the invention relates to the use of a product or kit such as defined above for the diagnosis of thyroid cancer in a mammalian subject, preferably a human subject.

It is understood that any equivalent technique can be used within the scope of the present application to determine the presence of a target molecule.

Further aspects and advantages of the present invention will appear upon consideration of the following examples, which must be regarded as illustrative and non-restrictive.

EXAMPLES

A. Material and Methods

1. Biological Samples:

Candidate signatures have been identified using retrospective cohorts (DeCanThyr, Hospices Civils de Lyon and FNAC, Centre Baclesse—Caen) on a total of 60 subjects, 20 patients had malignant nodules and 40 patients had benign lesions. All samples were previously classified as “indeterminate” according to the Bethesda classification and were associated with the histopathological analysis results of the surgical specimen. Table 1 below provides details about the distribution of cancerous and benign thyroid lesions in each Bethesda indeterminate category.

TABLE 1 Bethesda Histology Histology Samples classification Cytology based benign malignant III 12 11 1 60 patients IV 29 22 7 V 19 7 12

2. Total RNA Extraction or Storage

Dedicated fine needle aspirations were collected in 350 μl of RLT buffer (RNeasy Micro kit, Qiagen) and stored at −80° C. Total RNA was extracted using the manufacturer's recommended procedure and stored at −80° C.

The acceptance criteria were the following:

-   -   Absorbance measure (A260/A280) greater then 1.7     -   Ribosomal ratio (28S/18S) greater or equal to 0.4     -   RIN value (Agilent Bioanalyzer 2100) greater than 4

3. HsGWSA2.0.2.Dx POC 1M Agilent Array

The Hs GWSA 2.0.2.Dx POC 1M Microarray on the Agilent platform is a tool created to detect and quantify gene expression and alternative expression of transcripts. To achieve this, gene transcripts are identified that represent reference and alternative expression patterns and are processed to resolve the discriminative regions in these expression pattern. The identified alternative event patterns may include: alternative exons, novel splice sites, elimination of splice sites, skipping of normally constitutive exons or some combination thereof.

Analysis was performed on publically available sequence data from a set of human genes identified in the NCBI release 189 and using the NCBI Human genome release 37.3. These sequences were analyzed with a proprietary software system that processed two overlapping datasets: modeling the exon structure of the annotated reference forms of the genes and generating models to identify alternative events identified by these reference forms within the genes.

The reference form analysis for the genes involved identification of expression regions that represented every exon of the reference exemplar sequence data. The alternative event analysis was performed by modeling expression patterns of the identified alternative transcripts and deriving the discriminative expression regions.

After the expression regions were identified a second analysis was performed to identify a minimally redundant expression path through the gene for all selected expression features (reference form expression and included discriminative expression regions). A series of probes were designed from this path: probes that target the expressed exons of the reference forms, junctions to constitutive exons of the reference forms and probes designed against the identified discriminative regions and the junctions (explicit and implicit) indicated by the evidence of the alternative transcripts. This combination of exon and junction probes enables the platform to specifically monitor the expression of the individual components of the alternatively spliced mRNA populations.

19,391 human genes were submitted to the analysis process. 34056 alternative events were identified that matched the selection and scoring criteria of the analysis and selection algorithms. Probes were designed to the sense strand of the sequence as a 24 nucleotide sequence with a 35 nucleotide poly-T linker and the microarrays were produced by Agilent Technologies.

4. RNA Amplification

15 to 50 ng of total RNA were used as matrix for target synthesis using the Ovation Pico WTA System v2 kit (NuGen, San Carlos, Calif.), as recommended by the manufacturer. The quality and quantity of cDNA generated were evaluated using Agilent's 2100 Bioanalyser (Agilent Technologies) and the NanoDrop 1000 Spectrophotometer (Labtech International, UK). 2 μg of cDNA molecules were labeled using Agilent SureTag DNA labeling kit, following manufacturer's recommended protocol. The quality of the Cy3-labelled cDNA is assessed by measuring the yield of cDNA and the specific activity, proportional to the degree of labeling, by measuring the absorbance of the purified product at 260 nm and 550 nm.

5. Hybridization with GWSA Slide

10 μg of cDNA amplified and labeled with Cy3 were used for the hybridization on the HsGWSA2.0.0.Dx POC 1M Agilent array following manufacturer's recommendation, at 55° C. for 17 hours. Non-specific hybridization signals were removed by a 2-step wash of the arrays, following manufacturer's protocol. Hybridization signals were measured using the G5761A SureScan Dx Microarray Scanner System (Agilent Technologies, USA).

6. Data Extraction and Normalization

Intensity signal measurements were extracted with Feature Extraction 11.0.1.1 software (Agilent Technologies). The files (.Tiff) processed with Feature Extraction were quantile normalized using GeneSpring Gx software (Agilent Technologies) prior to statistical analysis. Expression values below 20 were all floored at 20. Probe sets were filtered out if the ratio of the maximum to minimum intensity across the training set was lower or equal to 2.5 or if the difference between the maximum and minimum intensity was lower or equal to 50. 207 043 probe sets from the 448 863 probe sets on the chips remained for further analysis.

7. Statistical Analysis and Signature Identification

The point biserial correlation coefficient was calculated for probe sets between probe set expression and a binary indicator, the value of which was defined by the malignancy status of the patient (0 for cancer free and 1 for patients with Cancer) (van't Veer, et al. 2002). The probe sets with the highest absolute correlation are those most correlated with the occurrence of thyroid cancer. T-tests to evaluate whether point biserial correlation values were significantly different from 0 were used.

To develop a prediction rule to classify samples from new patients with unknown status, we chose the nearest centroid prediction rule (Michiels et al, 2005). This prediction rule classifies new patients according to the correlation between the expression of their molecular classifier probe sets (or genes or events) and the average profiles in the two categories (the average Benign and Malignant profiles) are defined as the vector of the average expression values of the molecular classifier probe sets in benign and malignant samples in the training set, the predicted category being the one with the highest correlation. The molecular classifier probe sets were defined as those for which the p-value of the point biserial correlation coefficient with the benign or malignant binary status variable was below a particular threshold.

Leave-one-out cross-validation (LOOCV) was used to estimate the prediction accuracy of the rule determined on the training set. One sample is left out, and the remaining samples are used to build the prediction rule, which is then used to classify the left-out sample. The entire model-building process was repeated for each leave-one-out training set to provide unbiased estimates of the prediction accuracy of the prediction rule determined on the entire training set: correlation coefficients were recalculated, sorted according to their absolute value, the molecular classifier probe sets defined, and the nearest centroid prediction rule constructed. We predicted the outcome of the sample that was left out in the first place, on the basis of the highest correlation coefficient it had with the average benign and malignant profiles from the remaining other samples. At the end of the leave-one-out cross-validation procedure, we counted in how many cases the predictions were correct and in how many cases the predictions were incorrect to estimate the misclassification rate of the prediction rule determined on the entire training set. The results obtained are listed in the table below. ROC-curves are constructed to determine optimal cut-offs based on the correlation values with the cancer and benign profiles, and area under the ROC curve (AUC) has been calculated for estimating predictive accuracy.

Classifier Size Reduction

-   -   Starting from the list of probe sets (PS) included in the         classifier developed using the nearest centroid prediction (NCP)         rule and the 25 PS with p-value below 1e⁻⁷, the correlation         between each PS expression level was estimated using Pearson         correlation coefficients and associated p-values.

Based on these correlations coefficients (Approach C), 3 different selection methods were used in order to reduce the size of the signature:

-   -   1. For a given gene: selection of the PS the most correlated         with the other PS of a given gene and the PS the least         correlated with the other PS of this gene.     -   2. For a given gene: selection of the PS the least correlated         with the other PS of this gene and the PS the most correlated         with the other PS of this gene but slightly correlated with the         PS of the other genes.     -   3. For a given gene: selection of the PS the most correlated         with the other PS of this gene, the PS the least correlated with         the other PS of this gene and the PS the most correlated with         the other PS of this gene but slightly correlated with the PS of         the other genes.

Two other approaches were used to reduce the size of the classifiers:

-   -   by steps of 5 PS from 5 to 25 PS contained in the 25PS         classifier (Approach A)     -   by selecting the PS for which the correlation with all the         patient samples is the most significant (Approach B).

B. Results

Expression values below 20 were all floored at 20. Probe sets (PS) were filtered out if the ratio of the maximum to minimum intensity across the training set was lower or equal to 2.5 or if the difference between the maximum and minimum intensity was lower or equal to 50. 207 043 probe sets out of the 448 863 probe sets per chip remained for further analysis.

The probe sets associated to the highest fold changes and the most statistically significant of a difference between malignant and benign nodules were identified and are listed in Table 2.

TABLE 2 Summary of PS Identification Cut-off Number of significant PS Signature 1e⁻² 4196 A 1e⁻³ 918 B 1e⁻⁴ 278 C 1e⁻⁵ 109 D 1e⁻⁶ 51 E 1e⁻⁷ 25 F 1e⁻⁸ 12 G

Molecular signatures have been developed using the p-value thresholds described above. Table 3 summarizes the leave one out cross-validation results. In this table, the signatures error rates, sensitivities and specificities obtained with the nearest centroid prediction rules are denoted as Error Rate (diff), Sensitivity (diff) and Specificity (diff) because based on the difference in the correlation with the Malignant and Benign profiles.

The accuracy of the signatures is measured by the area under the ROC [Receiver Operating Characteristics] curve. The ROC curve is created by plotting the true positive rate (sensitivity) against the false positive rate (1-specificity) at various threshold settings. The point with coordinate (0,1) (also called perfect classification) in the ROC space is associated to a sensitivity of 100% and a specificity of 100%. A test with perfect discrimination has a ROC curve that passes through the upper left corner (100% sensitivity, 100% specificity). Therefore the closer the ROC curve is to the upper left corner, the higher the overall accuracy of the test (Zweig & Campbell, 1993).

The Area Under the ROC Curve (AUC) based on the difference between the correlation values (Malignant and/or Benign profiles) are labeled as AUC (diff), AUC (M) or AUC (B).

TABLE 3 Summary of Leave-One-Out Cross Validation. Error Sensi- Speci- Sig- Cut- Rate tivity ficity AUC AUC AUC nature off (diff) (diff) (diff) (diff) (B) (M) A 1e⁻² 18.3% 60.0% 92.5% 70.4% 76.5% 62.9% B 1e⁻³ 13.3% 70.0% 95.0% 81.9% 87.4% 69.8% C 1e⁻⁴ 13.3% 75.0% 92.5% 81.9% 86.5% 78.0% D 1e⁻⁵ 13.3% 75.0% 92.5% 83.0% 86.1% 79.3% E 1e⁻⁶ 16.7% 70.0% 90.0% 81.8% 79.5% 77.1% F 1e⁻⁷ 18.3% 65.0% 90.0% 86.0% 67.5% 85.1% G 1e⁻⁸ 23.3% 60.0% 85.0% 77.0% 52.1% 77.0%

Performance of Signature B (918PS)

Signature B, based on the combination of 918 probe sets with p-values below 1e⁻³, produces the lowest overall error rate (13.3%). For this signature, the leave-one-out cross validated estimations of sensitivity and specificity are 70% and 95%, respectively. The ROC curves associated to the 918PS signature are presented in FIG. 1. The correlation of each FNA sample with the average malignant and the benign profiles using LOOCV with a p-value cut-off of 10³ is shown in FIG. 2.

Signature B contains a plurality of probes that allows specific detection of at least one expression product of CITED1, TENM1, CCM2, SCLY, IGSF10 and FRMD3 and of each gene listed in Table A and in Table B.

Performance of Signature D (109PS)

Signature D, based on the combination of 109 probe sets with p-values below 1e⁻⁵, produces also the lowest overall error rate (13.3%). For this signature, the leave-one-out cross validated estimations of sensitivity and specificity are 75% and 92.5%, respectively. The ROC curves associated to the 109PS signature are presented in FIG. 3. The correlation of each FNA sample with the average malignant and the benign profiles using LOOCV with a p-value cut-off of 10⁻⁵ is shown in FIG. 4.

Signature D contains a plurality of probes that allows specific detection of at least one expression product of CITED1, TENM1, CCM2, SCLY, IGSF10 and FRMD3 and of each gene listed in Table A.

Performance of Signature F (25PS)

Signature F, based on the combination of 25 probe sets with p-values below 1e⁷, produces an error rate of 18.3%. For this signature, the leave-one-out cross validated estimations of sensitivity and specificity are 65% and 90%, respectively. The ROC curves associated to the 25PS signature are presented in FIG. 5. The correlation of each FNA sample with the average malignant and the benign profiles using LOOCV with a p-value cut-off of 10⁻⁷ is shown in FIG. 6.

Each of these signatures may be used to effectively determine the malignant status of a thyroid lesion with very high specificity and a good sensitivity.

Analysis of the Content of Signature F (25PS)

In order to identify the smallest signature composition able to classify patient with high accuracy, 3 approaches (see Material and Methods) were selected and applied on the composition of the 25PS signature (90% specificity and 65% sensitivity). The results show that Signature F actually targets 6 distinct marker genes, namely CITED1, TENM1, SCLY, CCM2, IGSF10 and FRMD3. The composition and associated fold changes of the 25 PS are listed in Table 4. These target genes represent valuable markers which can be used to analyse thyroid cancer in patients.

TABLE 4 25 PS signature composition and associated fold changes Fold-Change Column ID (M/B) Ranking Gene HSX2_01477710-333, HSX2_01477710-515|HSX2_01477710 3.52 1 TENM1 HSX2_01477640-162, HSX2_01477640-81|HSX2_01477640 4.88 2 TENM1 HSX2_01477635-192, HSX2_01477635-73|HSX2_01477635 3.57 3 TENM1 HSX2_01477563-23, HSX2_01477563-15|HSX2_01477563 6.53 4 TENM1 HSX2_01477645-87, HSX2_01477645-41|HSX2_01477645 5.67 5 TENM1 HSX2_01477615-1|HSX2_01477615 5.73 6 TENM1 HSX2_01477675-104, HSX2_01477675-288|HSX2_01477675 4.40 7 TENM1 HSX2_01064548-127, HSX2_01064548-32|HSX2_01064548 14.39 8 CITED1 HSX2_01064539-42, HSX2_01064539-77|HSX2_01064539 11.43 9 CITED1 HSX2_02073060-1, HSX2_02073060-141|HSX2_02073060 2.08 10 CCM2 HSX2_02509166-208, HSX2_02509166-401|HSX2_02509166 8.21 11 CITED1 HSX2_01771392-673, HSX2_01771392-460|HSX2_01771392 2.99 12 SCLY HSX2_01064533-104, HSX2_01064533-39|HSX2_01064533 1.85 13 CITED1 HSX2_01064546-23, HSX2_01064546-24|HSX2_01064546 12.74 14 CITED1 HSX2_01477625-72, HSX2_01477625-106|HSX2_01477625 5.46 15 TENM1 HSX2_01064543-27, HSX2_01064543-46|HSX2_01064543 10.95 16 CITED1 HSX2_01477568-13, HSX2_01477568-174|HSX2_01477568 3.14 17 TENM1 HSX2_01477711-4356, HSX2_01477711-469|HSX2_01477711 3.45 18 TENM1 HSX2_01477695-242, HSX2_01477695-17|HSX2_01477695 3.17 19 TENM1 HSX2_02487762-422, HSX2_02487762-163|HSX2_02487762 1.79 20 IGSF10 HSX2_01477665-106, HSX2_01477665-35|HSX2_01477665 3.40 21 TENM1 HSX2_01477573-25, HSX2_01477573-189|HSX2_01477573 3.40 22 TENM1 HSX2_02319619-6, HSX2_02319619-4|HSX2_02319619 5.56 23 FRMD3 HSX2_01477556-78, HSX2_01477556-189|HSX2_01477556 1.76 24 TENM1 HSX2_01064547-31, HSX2_01064547-166|HSX2_01064547 3.44 25 CITED1

Starting from the list of probe sets (PS) included in the 25PS signature, the correlation between each PS expression level was estimated using Pearson correlation coefficients and associated p-values. Based on these correlation coefficients, 3 different selection methods (Approach C methods 1, 2 and 3 as described in Material and Methods) as well as the following two approaches were used to reduce the size of the signatures:

-   -   by steps of 5 PS from 5 to 25 PS contained in the 25PS signature         (Approach A)     -   by selecting the PS for which the correlation with all the         patient samples is the most significant (Approach B)

Signatures associated to error rates below or equal to 20% were identified for the 3 approaches used and are listed in Table 5.

TABLE 5 optimal signatures identified during signature size reduction analysis. # PS Sensitivity Specificity Target Genes 15 65% 87.50% TENM1, CITED1, CCM2, SCLY 8 75% 82.50% TENM1, CITED1, CCM2, SCLY, FRMD3, IGSF10 8 70% 87.50% TENM1, CITED1, CCM2, SCLY, FRMD3, IGSF10 10 70% 90.00% TENM1, CITED1, CCM2, SCLY, FRMD3, IGSF10 4 65% 92.50% TENM1, CITED1

PS Analysis Focusing on CITED1 and TENM1

Various probe sets are designed that target particular regions of the CITED1 or TENM1 gene products. Tables 6 and 7 identify the exons targeted by these probes for TENM1 and CITED1, respectively, and the upregulations of these exons measured in the malignant samples of cytological indeterminate thyroid lesions.

TABLE 6 Upregulation and exons identified with the PS composing the 25 PS signature and covering TENM1 gene. Fold-Change ProbeSet ID Targeted exon (M vs. B) HSX2_01477556 1 1.76 HSX2_01477568 4 3.14 HSX2_01477695 29 3.17 HSX2_01477573 5 3.40 HSX2_01477665 23 3.40 HSX2_01477711 UTR 3.45 HSX2_01477710 32 3.52 HSX2_01477635 17 3.57 HSX2_01477675 25 4.40 HSX2_01477640 18 4.88 HSX2_01477625 15 5.46 HSX2_01477645 19 5.67 HSX2_01477615 13 5.73 HSX2_01477563 3 6.53

TABLE 7 Upregulation and exons identified with the PS composing the 25 PS signature and covering CITED1 gene. Fold-Change ProbeSetID Targeted exon (M vs. B) HSX2_01064533 (−2)   1.85 HSX2_01064547 4 3.44 HSX2_02509166 4 8.21 HSX2_01064543 4 10.95 HSX2_01064539 3 11.43 HSX2_01064546 4 12.74 HSX2_01064548 4 14.39

Various combinations of such probes were assessed for relevance. The invention shows that when a limited number of target genes are monitored according to the invention, it is highly preferred to use two distinct probes specific for distinct regions of the expression product of said gene. In this regard, monitoring exon4 and/or exon3 and/or exon-2 of CITED1 and targeting exons 32, 25, 19, 18, 17, and/or 1, for TENM1 is particularly advantageous.

The combination of the following particular exons of CITED1 provides strong sensitivity:

For_CITED1 gene, the targeting of exon3, exon4 and exon-2 with the following probe sets increases performance:

ProbeSets: HSX2_01064548 HSX2_01064539 HSX2_02509166 HSX2_01064533

Sensitivity 73% and Specificity 83%

ProbeSets: HSX2_01064548 HSX2_01064539 HSX2_02509166 HSX2_01064533 HSX2_01064546 HSX2_01064543 HSX2_01064547

Sensitivity 75% and Specificity 90%

These results show that an effective and reliable detection of thyroid cancer can be implemented by monitoring 2 or 3 distinct domains of CITED1 expression product.

As discussed below, by further combining such marker with TENM1, a further specific and sensitive detection is obtained.

Signature H: CITED1 & TENM1

In this experiment, two probeSets specific for CITED1 and two probeSets specific for TENM1 were combined. The specific probeSets used are listed below.

TENM1: HSX2_01477675 HSX2_01477556 CITED1: HSX2_01064533 HSX2_01064546

Sensitivity 65% and Specificity 92.5%

Further exon analysis results linked to the performances listed in table 5 are reported in Table 8, focusing only on CITED1 and TENM1.

TABLE 8 targeted exons for TENM1 and CITED1 in optimal signatures Targeted exons # PS Targeted exons TENM1 CITED1 Sensitivity Specificity 15 32, 18, 17, 3, 19, 13, 25, 15 3, 4, (−2) 65% 87.50% 8 32, 18 3, 4 75% 82.50% 8 32, 18, 17 3, 4, (−2) 65% 87.50% 8 25, 1 4, (−2) 70% 87.50% 10 25, 19, 1 4, (−2) 70% 90.00% 4  1, 25 4, (−2) 65% 92.50%

These results show that by detecting exon1, 19 and/or 25 of TENM1 and exon 4 and/or (−2) of CITED1, highly relevant diagnosis can be made.

REFERENCES

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Entrez Entrez SEQ ID Name ProbeSet ID ID # Target Sequence 51115 RMDN1 HSX2_01747164 1 GCCTTAGGCTACTTTCACAGGGCAGAACAAG 285533 RNF175 HSX2_02344199 2 CTTTCATGAATTCTGCATCCGAGGTTGGTGTATCGTTGGGAAAAAGCAGACTTGC CCTTACTGCAA AGAGAAAGTTGATTTGAAGAGGATGATCAGTAATCC 10921 RNPS1 HSX2_02538806 3 GGCGGCGGCGGGAAGATGATGCTGCTCTTTGGCG 79897 RPP21 HSX2_02030256 4 ATTCCAAACCACTACAACCCTTGCCAAACACAGCCCACTCCATTTCAGACCGCCTT CCTGAGGAGA AAATGCAGACTCAGGGTTCCAGTAACCAGTGATGGATTCACCCCATCTCCCAAAT AAAGTTTACTT GTTTTACATTC 10351 ABCA8 HSX2_01491300 5 GCTATTAATTCTAATGGCTGGATTTTGCCCTCTTCTTGTGGAGTATACCATGGTGA AAATATATCA AAACAGTTACACCTGGGAACTTTCTCCTCATTTGTATTTCCTTGCTCCTGGACAAC AACCACATGAC CCTCTCACTCAACTACTGATCATCAATAAAACAG 8714 ABCC3 HSX2_01355653 6 GTTCTGGCCCCTGTCATCCTCATGCTGCTCAATTCCTTCTTCAACGCCATCTCCACT CTTGTGGTCA TCATGGCCAGCACGCCGCTCTTCACTGTGGTCATCCTGCCCCTGGCTGTGCTCTAC ACCTTAGTGC AG 35 ACADS HSX2_00754990 7 GCCATCCAGATCCTGGGCGGCATGGGCTACGTGACAGAGATGCCGGCAGAGCG GCACTACCGC GACGCCCGCATCACTGAGATCTACGAGGGCACCAGCGAAATCCAGCGGCTGGTG ATCGCCGGGC ATCTGCTCAGGAGCTACCGGAGCTGAGCCCGCGGCGGACTGCCCCAGGACTGCG GGAAGGCGC GGGAGCCAGGGGCCTCCACCCCAACCCCGGCTCAGAGACTGGGCGGCCCGGCG GGGGCTCCCT GGGGACCCCAGATGGGCTCAGTGCTGCCACCCAGATCAGATCACATGGGAATGA GGCCCTCCGA CCATTGGCAGCTCCGCCTCTGGGCCTTTCCGCCTCCTCACCACTGTGCCTCAAGTT CCTCATCTAA GTGGCCCTGGCCTCCTGGGGGCGGGGTTGTGGGGGGGCTGAGCGACACTCAGG GACACCTCAG TTGTCCTCCCGCGGGCCCTGGTGCCCTGGCATGAAGGCCCAGTGCGACAGGCCC TTGGTGGGGT CTGTCTTTTCCTTGAGGTCAGAGGTCAGGAGCAGGGCTGGGGTCAGGATGACGA GGCCTGGGGT CCTGGTGTTGGGCAGGTGGTGGGGCTGGGCCATGGAGCTGGCCCAGAGGCCCC TCAGCCCTTTG TAAAGTCTGATGAAGGCAGGGGTGGTGATTCATGCTGTGTGACTGACTGTGGGT AATAAACACA CCTGTCCCCCA 79968 WDR76 HSX2_02034207 8 GTAAATGAATATAAAGAAAATCAAAACATCGCTTATGTGTCTCTGAGACCAGCAC AGACTACAGT TTTAATAAAAACAGCTAAGGTCTATCTTGCCCCCTTTTCACTCAG 835 CASP2 HSX2_00819195 9 GCCACCTGGAGGATATGTTGCTCACCACCCTTTCTGGGCTTCAGCATGTACTCCCA CCG 56999 ADAMTS9 HSX2_01905394 10 GGAGGGAGGGGTGGGAAGCACCATGCAGTTTGTATCCTGGGCCACACTGCTAAC GCTCCTGGTG CGGGACCTGGCCGAGATGGGGAGCCCAGACGCCGCGGCGGCCGTGCGCAAGG ACAGGCTGCA CCCGAGGCAAG 56999 ADAMTS9 HSX2_01905410 11 CTGGGCACATTCCGGTCTCATGATGGGGATTATTTTATTGAACCACTACAGTCTAT GGATGAACAA GAAGATGAAGAGGAACAAAACAAACCCCACATCATTTATAGGCGCAGCGCCCCC CAGAGAGAGC CCTCAACAGGAAGGCATGCATGTGACACCTCAG 56999 ADAMTS9 HSX2_01905487 12 GTTTAACATGCCTCATGATGACAACAACAAATGTAAAGAAGAAGGAGTTAAGAG TCCCCAGCATG TCATGGCTCCAACACTGAACTTCTACACCAACCCCTGGATGTGGTCAAAGTGTAG TCGAAAATAT ATCACTGAGTTTTTAGA 56999 ADAMTS9 HSX2_01905592 13 TGTTCAAAAAGCTGTGACGGTGGGACCCAGAGGAGAAGGGCTATTTGTGTCAAT ACCCGAAATG ATGTACTGGATGACAGCAAATGCACACATCAAGAGAAAGTTACCATTCAGAGGT GCAGTGAGTTC CCTTGTCCACAGTGGAAATCTGGAGACTGGTCAGAG 56999 ADAMTS9 HSX2_01905598 14 TGCTTGGTCACCTGTGGAAAAGGGCATAAGCACCGCCAGGTCTGGTGTCAGTTT GGTGAAGATC GATTAAATGATAGAATGTGTGACCCTGAGACCAAGCCAACATCTATGCAGACTTG TCAGCAGCCG GAATGTGCATCCTGGCAGGCGGGTCCCTGGGGACAG 56999 ADAMTS9 HSX2_01905636 15 TGCTCTGTGACCTGTGGGCAAGGTAGGGCAACCCGGCAAGTGATGTGTGTCAAC TACAGTGACC ACGTGATCGATCGGAGTGAGTGTGACCAGGATTATATCCCAGAAACTGACCAGG ACTGTTCCATG TCACCATGCCCTCAAAGGACCCCAGACAGTGGCTTAGCTCAGCACCCCTTCCAAA ATGAGGACTA TCGTCCCCGGAGCGCCAGCCCCAGCCGCACCCATGTGCTCGGTGGAAACCAGTG GAGAACTGGC CCCTGGGGAGCA 56999 ADAMTS9 HSX2_01905650 16 TGCACTAAGCTGTGTGGTGGAGGCATAAGAACAAGACTGGTGGTCTGTCAGCGG TCCAACGGTG AACGGTTTCCAGATTTGAGCTGTGAAATTCTTGATAAACCTCCCGATCGTGAGCA GTGTAACACA CATGCTTGTCCACACGACGCTGCATGGAGTACTGGCCCTTGGAGC 56999 ADAMTS9 HSX2_01905665 17 TGCTCTGTGTCCTGTGGCCGAGGCGTACAGCAGAGGCATGTGGGCTGTCAGATC GGAACACACA AAATAGCCAGAGAGACCGAGTGCAACCCATACACCAGACCGGAGTCGGAACGC GACTGCCAAG GCCCACGGTGTCCCCTCTACACTTGGAGGGCAGAGGAATGGCAAGAA 56999 ADAMTS9 HSX2_01905746 18 GATGGTACCCGAGTCGTAGGGAAATGCGGTGGTTACTGTGGAAAATGCACTCCA TCCTCTGGTAC TGGCCTGGAGGTGCGAGTTTTATAGCTAAG 56999 ADAMTS9 HSX2_01905758 19 AGACCAAAGAGATTAGGAAAAGCCTGGCAGTATTCTCCAACTCCAAACAAGCTCT AGAGTGCTCC AGGAAAAGTTATATTCAGTATATGAATAAGTGTTATTCTCCATTATTAATGTGTTC TGAAAATATAT TATGAATAAATACATCACCACACCCAA 56999 ADAMTS9 HSX2_02560668 20 TGCACTAAGCTGTGTGGTGGAGGCATAAGAACAAGACTGGTGGTCTGTCAGCGG TCCAACGGTG AACGGTTTCCAGATTTGAGCTGTGAAATTCTTGATAAACCTCCCGATCGTGAGCA GTGTAACACA CATGCTTGTCCACACGACGCTGCATGGAGTACTGGCCCTTGGAGCTCG 132 ADK HSX2_00763371 21 CTTACAGTTTCCCCAGAGTCAGTATTAAAGGTGGATGTTGATATATGAAAGTTAT GCCTTCTCACC ATGCTTCTGAAAACAACAGGATTTTCACTTTGAATCTATCTGCACCGTTTATTAGC CAGTTCTACAA GGAATCATTG 132 ADK HSX2_00763381 22 GAAGCTGCCACTTTTGCTAGAGAGCAAGGCTTTGAG 132 ADK HSX2_00763387 23 CATTAAAGAGATAGCCAAAAAGACACAAGCCCTGCCAAAGATGAACTCAAAGAG GCAGCGAATC GTGATCTTCACCCAAGGGAGAGATGACACTATAATGGCT 132 ADK HSX2_02491081 24 AGAAAATATTCTCTTTGGAATGGGAAATCCTCTGCTTGACATCTCTGCTGTAGTG GACAAAGATTT CCTTGATAA 132 ADK HSX2_02491083 25 GGCTTTTTTCTTACAGTTTCCCCAGAGTCAGTATTAAAGGTGGCTCACCATGCTTC TGAAAACAAC AGGATTTTCACTTTGAATCTATCTGCACCGTTTATTAGCCAGTTCTACAAGGAATC ATTGATGAAA GTTATGCCTTATGTTGATATACTTTTTGGAAATGAGACA 132 ADK HSX2_02491084 26 ACTAAAGACATTAAAGAGATAGCCAAAAAGACACAAGCCCTGCCAAAGATGAAC TCAAAGAGGC AGCGAATCGTGATCTTCACCCAAGGGAGAGATGACACTATAATGGCTACAG 134 ADORA1 HSX2_00763516 27 CTTTCCAGGCCGCCTACATCGGCATCGAGGTGCTCATCGCCCTGGTCTCTGTGCC CGGGAACGTG CTGGTGATCTGGGCGGTGAAGGTGAACCAGGCGCTGCGGGATGCCACCTTCTG CTTCATCGTGT CGCTGGCGGTGGCTGATGTGGCCGTGGGTGCCCTGGTCATCCCCCTCGCC 165 AEBP1 HSX2_02491233 28 AGTGTCCCCCCATTGGGATGGAGTCACACCGTATTGAGGACAACCAGATCCGAG CCTCCTCCATG CTGCGCCACGGCCTGGGGGCACAGCGCGGCCGGCTCAACATGCAG 10551 AGR2 HSX2_01509381 29 TGGAGAAAATTCCAGTGTCAGCATTCTTGCTCCTTGTGGCCCTCTCCTACACTCTG GCCAGAGATA CCACAGTCAAACCTGGAGCCAAAAAGGACACAAAGGACTCTCGACCCAAACTGC CCCAGACCCT CTCCA 126133 ALDH16A1 HSX2_02196227 30 GTGTTCCAGGCTGGTGATGTGCCTTCGGAACGCCCATTCTATCCCCCAACCTTGG TCTCCAACCTGCCCCCAGCCTCCCCATGTGCCCAGGTGGAG 23541 SEC14L2 HSX2_02544485 31 ATGTCCTGCGGTTTGACAACACCTACAGCTTCATTCAT 51479 ANKFY1 HSX2_01767855 32 CTTCTTGCGGGAGCCAAAGTGAACGAATTAACCAAGCATCGCCAGACTGCCCTC CATCTTGCTGC CCAGCAGGACCTGCCCACCATCTGCTCAGTCCTCCTAGAGAATGGCGTGGACTTT GCTGCCGTGG ATGAGAATGGAAACAATG 60314 C12ORF10 HSX2_02562966 33 ATGTATGAGAACTTTGTGGAGGAGGTGGATGCTGTGGACAATGGGATCTCCCAG TGGGCAGAG GGGGAGCCTCGATATGCACTGACCACTACCCTGAGTGCACGAGTTGCTCGACTT AATCCTACCTG GAACCACCCCGACCAAGACACTGAG 6415 SEPW1 HSX2_01213456 34 TTTGAAGTGATGGTAGCCGGGAAGTTGATTCACTCTAAG 6415 SEPW1 HSX2_02518360 35 TGGCGCTTGAGGCTACAAGTCCAAG 55129 ANO10 HSX2_01833062 36 GCTGCAAGCTGCAAGCTGGTCTCTCTTCCACGGTATTCATGGAGCACCAACTCAG TGCCAGGCAC TGTCATAGGTCCTGGGGTCTAGTCATGGCCCTGCTCTCTGGAGACCACATACCAG 334 APLP2 HSX2_00781384 37 GTAAGAATAAAGTGGATGAAAACATG 143872 ARHGAP42 HSX2_02226497 38 GTGACTCCTATAGCAGCAGCCCAGACAGCACACCTATGGGGAGCATTGAGTCAC TCTCTTCTCAT TCCTCTGAACAAAATAGCACTACAAAGTCAGCTTCCTGCCAGCCCAGGGAGAAA TCTGGAGGGAT TCCTTGGATTGCAACCCCATCATCTTCCAATGGACAGAAAAGCCTTGGTCTGTGG ACAACTAGTCC TGAATCAAGTTCCAGAGAAGATGCAACCAAGACAGATGCAGAATCAGACTGCCA GAGTGTTGCT TCAGTCACTAGCCCAGGAGACGTTTCCCCACCCATAGACCTAGTCAAGAAAGAG CCTTATGGGCT TTCAGGACTGAAAAGAGCTTCTGCTTCTTCTCTCAGATCCATCTCTGCAGCTGAA G 143872 ARHGAP42 HSX2_02226509 39 GAAACAAGAGCTACAGTGGATCTATTCAAAGCTTAACTTCTGTAGGTTCCAAGG AGACACCCAAA GCTTCACCAAACCCAGACCTGCCTCCGAAAATGTGCAGGAGATTAAGACTAGAC ACTGCCTCAAG CAATGGCTATCAGCGGCCTGGCTCAGT 7024 TFCP2 HSX2_01262294 40 AGATGATGTGATCCAAATCTGTGGCCCTGCAGATGGAATCAGACTTTTTAATGCA TTAAAAGGCC G 7024 TFCP2 HSX2_02521603 41 GGGCAGATTTATTGAAATTAACTAGAGATGATGTGATCCAAATCTGTGGCCCTGC AGATGGAATC AGACTTTTTAATGCATTAAAAGGCCG 51566 ARMCX3 HSX2_01772667 42 TGGGTCCAAGCCTCTCCCGGGTGGC 51566 ARMCX3 HSX2_02552621 43 TGGGTCCAAGCCTCTCCCGGGTGGCCAG 54470 ARMCX6 HSX2_02553938 44 GTTTGTAGGTCTGTTGGCCTGTAGGTTTCGGCACAAGTTTCAGCGAGAGAAGGA GAAAACTGCCT TGGTTGGAACCTTGCAG 430 ASCL2 HSX2_00787901 45 CCTCAGCCCCGGAAGCCGAGCGAGCGGCCGGCGCGCTCATCGCCGGGGAGCCC GCCAGGTGGA CCGGCCCGCGCTCCGCCCCCAGCGAGCCGGGGACCCACCCACCACCCCCCGCAC CGCCGACGCC GCCTCGTTCGTCCGGCCCAGCCTGACCAATGCCGCGGTGGAAACGGGCTTGGAG CTGGCCCCAT AAGGGCTGGCGGCTTCCTCCGACGCCGCCCCTCCCCACAGCTTCTCGACTGCAGT GGGGCGGGG GGCACCAACACTTGGAGATTTTTCCGGAGGGGAGAGGATTTTCTAAGGGCACAG AGAATCCATTT TCTACACATTAACTTGAGCTGCTGGAGGGACAC 23250 ATP11A HSX2_01615000 46 GTGTGGCTATTTACACGGGAATGGAAACCAAGATGGCATTAAATTATCAATCAA AATCTCAGAAG CGATCTGCCGTGGAAAA 23250 ATP11A HSX2_01615045 47 TTCCTCAAGGCATTCACGGACTTCCTGGCCTTCATGGTCCTCTTTAACTACATCAT CCCTGTGTCCA TGTACGTCACGGTCGAGATGCAGAAGTTCCTCGGCTCTTACTTCATCACCTGGGA CGAAGACATG TTTGACGAGGAGACTGGCGAGGGGCCTCTGGTGAACACGTCGGACCTCAATGA AGAGCTGGGA CAG 84239 ATP13A4 HSX2_02091652 48 CTGGAGTTCAAGAGCTGGAATCACGCGTCCTGGTGCCTGGAGATTTATTAATTTT GACAGGGAAC AAAGTGCTAATGCCATGTGATGCCGTTCTGATTGAAGGCAGCTGTGTGGTGGAT GAAGGCATGC TGACAG 84239 ATP13A4 HSX2_02091695 49 GAAATGGCTTTTTCTGGGGACGATTTCCACATCAAGGGAGTGCCGGCACATGCC ATGGTAGTTAA GCCCTGCAGAACAGCCAGCCAG 51310 SLC22A17 HSX2_02551672 50 CTTCATTGCCCATGCCATTCGCCACTGCTACCAGCCTGTGGGAGGAGGAGGGAG CCCATCGGACT TCTACCTGTGCTCTCTGCTGGCCAGCGGCACCGCAGCCCTGGCCTGTGTCTTCCT GGGGGTCACC GTGGACCGATTTGGCCGCCGGGGCATCCTTCTTCTCTCCATGACCCTTACCGGCA TTGCTTCCCTG GTCCTGCTGGGCCTGTGGGATT 27241 BBS9 HSX2_02548207 51 GTGGTTGTACTACAATCCCAGAGTCAGACCTAGAAGAAAGATCAGTAGAACAAG ACTCTACAGA ACTGTTTACCAACCACAGACATCTCACTGCAGAGACACCCAGGCCTG 607 BCL9 HSX2_00799653 52 TAGCCCTAAGTCAAAGCAGGAGGTGATGGTCCGTCCCCCTACAGTGATGTCCCCA TCTGGAAACC CCCAGCTGGATTCCAAATTCTCCAATCAGG 607 BCL9 HSX2_00799660 53 AATGTAATTCTGCTGACCACATAAAGTCCCAGGATTCCCAGCACACACCACACTC GATGACCCCAT CAAATGCTACAGCCCCCAGGTCTTCTACCCCCTCCCATGGCCAAACTACTGCCACA GAGCCCACAC CTGCTCAGAAGACTCCAGCCAAAGTGGTGTACGTGTTTTCTACTGAGATGGCCAA TAA 607 BCL9 HSX2_02493341 54 TAGCCCTAAGTCAAAGCAGGAGGTGATGGTCCGTCCCCCTACAGTGATGTCCCCA TCTGGAAACC CCCAGCTGGATTCCAAATTCTCCAATCAGGGTAAACAGGGGGGCTCAGCCAGCC AATCCCAGCCA TCCCCCTGTGACTCCAAGAGTGGGGGCCATACCCCTAAAGCACTCCCTGGCCCAG GTGGGAGCA TGGGGCTGAAGAATGGGGCTGGAAATGGTGCCAAGGGCAAGGGGAAAAGGGA GCGAAGTATT TCCGCCGACTCCTTTGATCAGAGAGATCCTGGGACTCCAAACGATGACTCTGACA TTAAAG 6585 SLITT HSX2_01227688 55 AATGCTGCGGAACAACCGCATCAGCTGCATCCACAACGACAGCTTCACGGGCCT GCGCAACGTC CGGCTCCTCTCGCTCTACGACAACCAGATCACCACCGTATCCCCAGGAGCCTTCG ACACCCTCCA GTCCCTCTCCACACT 6585 SLITT HSX2_01227758 56 GTCTCCACGGCAGAGGACAATGGGATCCTTCTGTACAACGGGGACAACGACCAC ATTGCAGTTG AGCTGTACCAGGGCCATGTGCGTGTCAGCTACGACCCAGGCAGCTACCCCAGCT CTGCCATCTAC AG 627 BDNF HSX2_00800274 57 CCATTCACCGCGGAGAGGGCTGCTCTCGCTGCCG 79365 BHLHE41 HSX2_02006257 58 ACTCTGGGACATCTGGAGAAAGCTGTAGTCTTGGAATTAACTTTGAAACACTTAA AAGCTTTAACC GCCTTAACCGAGCAACAGCATCAGAAGATAATTGCTTTACAGAATG 440335 SMIM22 HSX2_02404970 59 GAAAGACCCAAGGGAGTGGATAACTTGGCCCTGGAACCCTGACCCTGTGTCTCC TGCCCGGTGG CAGTAACAAAGCCTTCTGTCTGCCCAGA 89927 C160RF45 HSX2_02130811 60 AAAAAGAAAAAACCAAACTGCAGAAGCAGAGAGAGGATGAGCTAATCCAGAAG ATCCACAAACT GGTGCAGAAGAGAGACTTCCTGGTGGACGATGCGGAGGTCGAGCGGTTAAG 29798 C2ORF27A HSX2_01722550 61 GCTTTTAGAGCACTGTGATGTAACATGTCAAGCAGAAATAGGGAGCATGTTTAC AGCCATTCTAT GAAAAAGTGTTCGGAATGTACAGACTAGCACAGAAGCTGGACTAATTGAACAAG TATTGCTGAA AATGAGTGCTGTAGATGACATGATAGCAG 84417 C2ORF40 84417.001.1-T 62 AACTCAAGCTGATGCTTCAAAAACGAGAAGCACCTGTTCCAACTAAGACTAAAGT GGCCGTTGAT GAGAATAAAGCCAAAGAATTCCTTGGCAGCCTGAAGCGCCAGAAGCGGCAGCT GTGGGACCGG ACTCGGCCCGAGGTGCAGCAGTGGTACCAGCAGTTTCTCTACATGGGCTTTGAC GAAGCGAAATT TGAAGATGACATCACCTATTGGCTTAACAGAGATCGAAATGGACATGAATACTAT GGCGATTACT ACCAACGTCACTATGATGAAGACTCTGCAATTGGTCCCCGGAGCCCCTACGGCTT TAGGCATGGA GCCAGCGTCAACTACGATGACTACTAACCATGACTTGCCACACGCTGTACAAGAA GCAAATAGCG ATTCTCTTCATGTATCTCCTAATGCCTTACACTACTTGGTTTCTGATTTGCTCTATTT CAGCAGATCT TTCTACCTACTTTGGTGATCAAAAAAGAAGAGTTAAAACAACAC 84417 C2ORF40 84417.001.2-T 63 AACTCAAGCTGATGCTTCAAAAACGAGAAGCACCTGTTCCAACTAAGACTAAAGT GGCCGTTGAT GAGAATAAAGCCAAAGAATTCCTTGGCAGCCTGAAGCGCCAGAAGCGGCAGCT GTGGGACCGG ACTCGGCCCGAGGTGCAGCAGTGGTACCAGCAGTTTCTCTACATGGGCTTTGAC GAAGCGAAATT TGAAGATGACATCACCTATTGGCTTAACAGAGATCGAAATGGACATGAATACTAT GGCGATTACT ACCAACGTCACTATGATGAAGACTCTGCAATTGGTCCCCGGAGCCCCTACGGCTT TAGGCATGGA GCCAGCGTCAACTACGATGACTACTAACCATGACTTGCCACACGCTGTACAAGAA GCAAATAGCG ATTCTCTTCATGTATCTCCTAATGCCTTACACTACTTGGTTTCTGATTTGCTCTATTT CAGCAGATCT TTCTACCTACTTTGGTGATCAAAAAAGAAGAGTTAAAACAACAC 84417 C2ORF40 HSX2_02098213 64 AAATTTGAAGATGACATCACCTATTGGCTTAACAGAGATCGAAATGGACATGAAT ACTATGGCGA TTACTACCAACGTCACTATGATGAAGACTCTGCAATTGGTCCCCGGAGCCCCTAC GGCTTTAGGC ATGGAGCCAGCGTCAACTACGATGACTACTAACCATGACTTGCCACACGCTGTAC AAGAAGCAAA TAGCGATTCTCTTCATGTATCTCCTAATGCCTTACACTACTTGGTTTCTGATTTGCT CTATTTCAGCA GATCTTTTCTACCTACTTTGTGTGATCAAAAAAGAAGAGTTAAAACAACACATGT AAATGCCTTTT GATATTTCATGGGAATGCCTCTCATTTAAAAATAGAAATAAAGCATTTTGTTAAA AAGAA 720 C4A HSX2_00807218 65 GCCAGGGACCTGGAAGATCTCAGCCCGATTCTCAGATGGCCTGGAATCCAACAG CAGCACCCAG TTTGAGGTGAAGAAATATG 721 C4B HSX2_00807494 66 GCCAGGGACCTGGAAGATCTCAGCCCGATTCTCAGATGGCCTGGAATCCAACAG CAGCACCCAG TTTGAGGTGAAGAAATATG 721 C4B HSX2_00807696 67 GCCAGGGACCTGGAAGATCTCAGCCCGATTCTCAGATGGCCTGGAATCCAACAG CAGCACCCAG TTTGAGGTGAAGAAATATG 100293534 C4B_2 HSX2_02455999 68 GCCAGGGACCTGGAAGATCTCAGCCCGATTCTCAGATGGCCTGGAATCCAACAG CAGCACCCAG TTTGAGGTGAAGAAATATG 100293534 C4B_2 HSX2_02456123 69 TGGATAAAAACCTGACTGTGAGCGTCCACGTGTC 770 CA11 HSX2_00811047 70 TGGATGGTGTCCCCCATGGTCGCTGAGACTCCCCTTCGAGGATTGCACCCGCCCG TCCTAAGCCT CCCCACAAGGCGAGGGGAGTTACCCCTAAAACAAAGCTATTAAAGGGACAGAAT ACTT 10241 CALCOCO2 HSX2_01482492 71 CTTTTGAAGAGGGAGAACAGCAGATTGCTCAGTTACATGGGTCTGGATTTTAATT CTTTGCCGTAT CAAGTACCTACTTCAGATGAAGGAGGCGCAAGACAAAATCCAGGACTTGCCTAT GGAAACCCAT ATTCTG 55450 CAMK2N1 HSX2_01852736 72 TTGTTATTGAAGATGATAGGATTGATGACGTGCTGAAAAATATGACCGACAAGG CACCTCCTGGT GTCTAACTCCCCCAAAGACAATGAGTTAAGGGAGAGAATAAGAACGGCGGTAA CAGTTATTGGC AAAAAGCATGAAAAGAGAAAGCACTTTGAAATTTATTACTAGCTTGCTACCCACG ATGAAATCAA CAACCTGTATCTGGTATCAGGCCGGGAGACAGATGAGGCGAGAGGAGGAGGA GGAGGAGGAG AAGGCTCTGGGCTCCTCTGCAAAAATAAAAATAAAAAAATAAATAAAATTTTAAA AATAATAAAA ATTCACTATATACACATATAAAGAAATAAAAAGAAGTCTCAGTTGCAGCTATTTG TCAAAATTAAT ATCCATTTCTTTTTATATACGGTGAATATTGCGCAATTATAGATCTGGATTTTGAA CCACTTAATGA AGCGGCAACACCAGGTGTTTTGAGGTGTTGGCATTCTTCGCTGATTTGGCTGTTC CCAATGTTTAC ATTATTTAATCTTGCAAAAATGGTTCTGTGCACTTGGATGTGAAATGCTGTCCAG TTTTATTTTTTT TATGTTGTTATCCTTGGATGTACAAAAAATTCAGAAAATGATCTCTGTAGATATTC TGTTTTATTTT GGTCATCTTTAGAAGTTATCAGGAATGTGTTTAAAACAAGAAGAGAACTTTTCTA AGGAATGATA CATAGAAAAGATTTTATTTTAAAATGAGTTGTAAAGCTTGTGTTTCTTTGTTGCTG CAAGCTATCTG CCCAAGTTAATGCAAATGGACACATTTTTTATGTCAGAAAAACACACACACACAC ACACACACACA CACACACACACGAAAAACAAAGAAAAAAATGCTTGAGCTTTTTCTAACTTCCCCT TGCAGTCTGTT GTGTGAGCAGCCTGTTTATTTCTCTAATATTATGTCAGTTTATTCTCTTTAATGGA CTGTAAAAAAA TGTAATCACAAGAGTGCCAAATATCTTGAAATGCCAAAAGGCATTTTAGTTTCTT TTCTCTGTGCTC TGAGTCCACGTACAGGAATGCTTGGAGTGTCTTTTCTGTTATTTATAGGGATTCT CTTAAGGCACA CCAGCTGCCTGTTTTGCATGGTATTTGCAAAAATGCCTCTTGCGTGAGGAAATCT TTTACCATTTTT TGTTTGCAACTTTGGACCTCAAGAGGTTTCCCTTCCCTTCCCCGTTCCCTCTTTTCT TAATTCAATAT TCTGTATGTTGCACCTTGAACCAGCACACAGGGCTATTTCTCCAATGTACAATAA AAGAATTGTTC CTGTGTCTCA 825 CAPN3 HSX2_00817525 73 ATGGTAAAGATCAGCCTGTGGCTTTTACGTATTGTGCCAAAACATCCATCCTGAG CCTGGAGAAG CTCTCACTCAACATTGCCACTGACTGGGAG 825 CAPN3 HSX2_00817595 74 GGAAGTTGAAAATACCATCTCCGTGGATCGGCCAGTG 113201 CASC4 HSX2_02162192 75 AGCAACTTGCTGAGCTTCGTCAGGAATTTCTTCGACAAGAAGACCAGCTTCAGG ACTATAGGAAG AACAATACTTACCTTGTGAAGAGGTTAGAATATGA 836 CASP3 HSX2_00819290 76 GTGGGTGTGCCCTGCACCTGCCTCTTCCCCCATTCTCA 836 CASP3 HSX2_02027519 77 GACCCAGGACTTAATTACCCAGTGCCCAGTTGTG 57639 CCDC146 HSX2_01937063 78 AAAATTATATCAGAAATGGAGTCTAAGTTAGTAGAACAACAACTTGCAGAAGAA AACAAGCTTTT AAAGGAGCAAGAAAACATGAAAGAGCTAGTAGTCAACCTTCTCCGCATGACTCA AATCAAAATTG ATGAAAAGGAACAAAAGTCCAAGGATTTCCTGAAAGCTCAG 57639 CCDC146 HSX2_01937168 79 ATGAATGGCTATCAAAGAAGGATCAAAAATGCAACTGAGAAAATGATGGCTCTT GTTGCTGAGCT GTCCATGAAACAAGCCCTAACCATTGAACTCCAAAAGGAAGTCAGGGAGAAAGA AGACTTCATCT TCACTTGCAATTCCAGGATAGAAAAAGGTCTGCCACTCAATAAGGAAATTGAGA AAGAATGGTTG AAAGTCCTTCGAGATGAAGAAATGCACGCCTTGGCCATCGCTGAAAAGTCTCAG 154467 CCDC167 HSX2_02255236 80 ATCGATGGGCTAGAGGAGAAGCTGTCCCAGTGTCGGAGAGACCTGGAGGCCGT GAACTCCAGA CTCCACAGCCGGGAGCTGAGCCCAGAGGCCAG 146439 CCDC64B HSX2_02233673 81 CTCACTTTCCTCTTCAGGCCAATGGAGCGACAGGGCCCAGATTGTCTTCCAAAAG AAGCTGATGC CCTCCCCGCCCCAGGATGCTGGGCAAGGGCTCATCGGGAGCAGGGGCTCATCCG GAGCAGGGG CCAGCTTTGTGGGGCAGGAGCTCCAGGTGGGTGGCAGGGGCAGGTGAACAGA GCTATTTTCCGAATTAATATA 114800 CCDC85A HSX2_02167533 82 TTTTTTTTTCATCTTAATGAGTTTCTCATAAAGACACATCTTGGGGCATACCAACC TTCATATTCATT CAGTGTATCCATTGGTGTTAATATTAACAATTTCAACTAAAAACAACAAACATAA TTTTTCTAAGTG TTTCGAGCTGTGAGATGTCAATTTCTACAATTTAGTTTCTAGACATGCTGTATATT TAATAAACTTT ATGTAAACTTTAAAATATTGCACTGCATTTATGAAAAAAGCTTTCTTTGCCTACTG CAGCTATCTAA CATTTTATGAAACTGACGCATGTCCTTCATTATTGAGGCTAAAAGCTCTTGTTCAG ATTGCTTGAG GTTTGAAAAAGAGGTGTGCTAGCTTTGCTTAGTTTATTTCTTATTTTTGGTATACA TATACATATAT ATAACATTAGAATGTGTGTACTGGAAATGCTATGATAGGTATTTTGTGTTAATCC AAATGCAATGA TAGTTTCTTGTATGAATGTGCAAGAGGCCTGTGACCGAATGCTACGGTTGTGTG GAGGAAACTTG GAGATGCTGCAGGTTCGTGTCCTGGAATTAGGCAACATTTGTCAGGAAACCAGT ACAAAGGACC AATGTGAGATGCACTCTTTTTCAAACAGGAGATCACCACTGCCAGAAAGTGATA GAAGACAAGAA GAAAAAGGAAAGAGTGGGTTTCCACAAACCTGGACTCATGGAATAACATGGAG TGATTGTACAT TGCACATATCTCCCCTCTAAAACCTGTAGTACAACTTCTCCCCTCAAGCTGATATT CTGTGTCTCTC ACCTCAATGTCCACAACAGTCAATCTCAAACAAGGTAGCTTTGAACATCTCAAAC AGAGTAGCTTT GAAAATCAACATTTTGGTACCAGTGTTTTCATTAGAAATAAGTGTTTTTAACTCCC CAGATATAATA TTGTAATTGGGAAACCTGAATAGTTTTAAGAGTCCAGTGGAGCCTCAGTGTTTTG AATAGAGATG ACTCATTACACATAATGGTAGGAGTTTTCTACCATATCATATTGAAGATATGAAG AGGTATTTTCC AGCTTCCCAAGTTTGAGAGTTGGGCATTTACCTCTTACACTTCAGTCAACAAACA AACTAGTAATT CCTAATGCATAATTAATTTGGATGCAAGATAAGATTAAGTTTCTGGAGTTTTGTTT TGACTTCTGA GGTGCTAAAAAATACCATGTAAATTCTCCCTACCAGCTAGAAGGGTAGCAAGAC GTTGTAGAGTG CTTATCAGAGAGTACCATTTACTTCAATTGATCAATATAAATATATC 83605 CCM2 HSX2_02073060 83 CCACATCCAGTTCCACCACCAATGGGAACAGGGCCACGGGCAGCTCTGATGACC GGTCGGCACC CTCAGAGGGGGATGAGTGGGACCGCATGATCTCGGACATCAGCAGCGACATTG AGGCGCTGGG CTGCAGCATGGACCAGGACTCAGCATGATGGACAGTGGATGGGGGGGCACCCA CACCTTCCGCG CAGTCGTCATAGGCCTTCCCAGAAGGAGCTGCC 894 CCND2 HSX2_00822288 84 GAGTGGGAACTGGTGGTGCTGGGGAAGTTGAAGTGGAACCTGGCAGCTGTCAC TCCTCATGACT TCATTGAGCACATCTTGCGCAAGCTGCCCCAGCAGCGGGAGAAGCTGTCTCTGAT CCGCAAGCAT GCTCAGACCTTCATTGCTCTGTGTGCCACCG 645121 CCNI2 HSX2_02420442 85 GTTGGTGATATGCAGTACAGCTGCTGCAAGGAACTTGTAATGCAGCAACTGAGA AGTCTTCAGTC ATCCTCCTGCACAGACAACTTTGTGTCACCTGCCAACTAGCCCCTCTGCCTCCACC CCGGGGCTTT CAGAGCATAGTGTGAAACCTCCTTGCTTGGACTACCATGAGTTCTTTGGCTTGTTA TGAATCCTGT AAAAAGGGAAGGTGGCTCTGGAAGAGCAACTGAGAAAAAGTTCCCAACTGAGC CCTTGGAAAAA AAATAAAGGGGAGAGGGGAAAGGCAGGCTGAGGTCAGTAGAGGTCAGGGTGG TCTGATAGACT ATGACCCTGTCTTCCCTTTTTCTCCTCTGGGCCTGAAGCCAGGGAGTATGAATGA ATGTTCAAATG GCAGCTTGTTTTACCTTCCTTCTCCAGCAAGGGTTGGCATTGGCCCCTGGGAGCG CTGGAATATG AAACCAAGAGGCAGGCCTGGCTCAGGGCTGAAGGGCTGGGGCTAGCTCTGACC AGTTCTTGCTG CTCTACCTGCCAGAGCTGGCCAGGTCCTTCCAACTTCCCAGGCTTATCCCAAACAC ATATGTGGTG CTTCCAGTCCCAACTACCCTGCC 283316 CD163L1 HSX2_02326932 86 CTTCCAGGGCTCACCAGATCAACCTCTAAATATC 961 CD47 HSX2_00827007 87 AAAGCTGTAGAGGAACCCCTTAATG 961 CD47 HSX2_00827010 88 CTATACAACCTCCTAGGAAAGCTGTAGAGGAACC 1014 CDH16 HSX2_00832581 89 ACCATGGCTTGATCGTGAGTGGACCCAGCAAGGACCCCGATCTGGCCAGTGGGC ACGGTCCCTA CAGCTTCACCCTTGGTCCCAACCCCACGGTGCAACGGGATTGGCGCCTCCAGACT CTCAATG 1001 CDH3 HSX2_00831293 90 GGTTTGGATTTTGAGGCCAAAAACCAGCACACCCTGTACGTTGAAGTGACCAAC GAGGCCCCTTT TGTGCTGAAGCTCCCAACCTCCACAGCCACCATAGTGGTCCACGTGGAGGATGT GAATGAGGCA CCTGTGTTTGTCCCACCCTCCAAAGTCGTTGAGGTCCAGGAGGGCATCCCCACTG GGGAGCCTGT GTGTGTCTACACTGCAGAAGACCCTGACAAGGAGAATCAAAAGATCAG 1001 CDH3 HSX2_00831298 91 CTACCGCATCCTGAGAGACCCAGCAGGGTGGCTAGCCATGGACCCAGACAGTGG GCAGGTCACA GCTGTGGGCACCCTCGACCGTGAGGATGAGCAGTTTGTGAGGAACAACATCTAT GAAGTCATGG TCTTGGCCATGGACAATG 1001 CDH3 HSX2_00831310 92 GTGACACAGTGGTCTTGTCCCTGAAGAAGTTCCTGAAGCAGGATACATATGACG TGCACCTTTCT CTGTCTGACCATGGCAACAAAGAGCAGCTGACGGTGATCAGGGCCACTGTGTGC GACTGCCATG GCCATGTCGAAACCTGCCCTGGACCCTGGAAGGGAGGTTTCATCCTCCCTGTGCT GGGGGCTGTC CTGGCTCTGCTGT 1001 CDH3 HSX2_00831320 93 GACTATGACATCACCCAGCTCCACCGAGGTCTGGAGGCCAGGCCGGAGGTGGTT CTCCGCAATG ACGTGGCACCAACCATCATCCCGACACCCATGTACCGTCCTCGGCCAGCCAACCC AGATGAAATC GGCAACTTTA 1001 CDH3 HSX2_00831328 94 CTGCTGTGACTGACCTACAGTGGACTTTCTCTCTGGAATGGAACCTTCTTAGGCCT CCTGGTGCAA CTTAATTTTTTTTTTTAATGCTATCTTCAAAACGTTAGAGAAAGTTCTTCAAAAGTG CAGCCCAGAG CTGCTGGGCCCACTGGCCGTCCTGCATTTCTGGTTTCCAGACCCCAATGCCTCCCA TTCGGATGGA TCTCTGCGTTTTTATACTGAGTGTGCCTAGGTTGCCCCTTATTTTTTATTTTCCCTG TTGCGTTGCTA TAGATGAAGGGTGAGGACAATCGTGTATATGTACTAGAACTTTTTTATTAAAGAA ACTTTTCCCA 1001 CDH3 HSX2_00831335 95 GCAACTTTATAATTGAGAACCTGAAGGCGGCTAA 1001 CDH3 HSX2_02495403 96 GACTATGACATCACCCAGCTCCACCGAGGTCTGGAGGCCAGGCCGGAGGTGGTT CTCCGCAATG ACGTGGCACCAACCATCATCCCGACACCCATGTACCGTCCTCGGCCAGCCAACCC AGATGAAATC GGCAACTTTATAATTGAG 1001 CDH3 HSX2_02495404 97 AACCTGAAGGCGGCTAACACAGACCCCACAGCCCCGCCCTACGACACCCTCTTGG TGTTCGACTA TGAGGGCAGCGGCTCCGACGCCGCGTCCCTGAGCTCCCTCACCTCCTCCGCCTCC GACCAAGACC AAGATTACGATTATCTGAACGAGTGGGGCAGCCGCTTCAAGAAGCTGGCAGACA TGTACGGTGG CGGGGAGGACGACTAGGCGGCCTGCCTGCAGGGCTGGGGACCAAACGTCAGGC CACAGAGCAT CTCCAAGGGGTCTCAGTTCCCCCTTCAGCTGAGGACTTCGGAGCTTGTCAGGAAG TGGCCGTAGC AACTTGGCGGAGACAGGCTATGAGTCTGACGTTAGAGTGGTGGCTTCCTTAGCC TTTCAGGATGG AGGAATGTGGGCAGTTTGACTTCAGCACTGAAAACCTCTCCACCTGGGCCAGGG TTGCCTCAGA GGCCAAGTTTCCAGAAGCCTCTTACCTGCCGTAAAATGCTCAACCCTGTGTCCTG GGCCTGGGCC TGCTGTGACTGACCTACAGTGGACTTTCTCTCTGGAATGGAACCTTCTTAGGCCTC CTGGTGCAAC TTAATTTTTTTTTTTAATGCTATCTTCAAAACGTTAGAGAAAGTTCTTCAAAAGTGC AGCCCAGAGC TGCTGGGCCCACTGGCCGTCCTGCATTTCTGGTTTCCAGACCCCAATGCCTCCCAT TCGGATGGAT CTCTGCGTTTTTATACTGAGTGTGCCTAGGTTGCCCCTTATTTTTTATTTTCCCTGT TGCGTTGCTAT AGATGAAGGGTGAGGACAATCGTGTATATGTACTAGAACTTTTTTATTAAAGAAA CTTTTCCCA 55755 CDK5RAP2 HSX2_01874332 98 CCTGAGGTGCCCCTTCAGCCTGACAAACACG 55755 CDK5RAP2 HSX2_01874383 99 TTTCAGAGACTCCTCCACTCTCTGGGAATGACACGGACTCCCTCTCCTGCGACAGT GGCAGTTCG GCAACTAGCACTCCGTGTGTGTCCCGCCTGGTCACTGGCCACCACCTGTGGGCCA GCAAGAATG GCCGCCATGTCCTGGGCCTGATTGAGGACTATGAGGCCCTGCTCAAACAGATCA GCCAGGGACA GAGGCTCCTTGCTGAAATGGACATTCAAACCCAAGAGGCTCCCAGCTCCACAAGT CAAGAGCTG GGAACAAAG 55755 CDK5RAP2 HSX2_01874417 100 ATTGGAGAAATGAAGGCAGAGGTCACCAAACTACATAAAAAATTGTTTGAACAA GAAAAGAAGT TGCAAAACACCATGAAGCTTTTGCAGCTGAGCAAGCGCCAGGAAAAAGTCATCT TTGATC 57214 CEMIP HSX2_01916997 101 GCTGTTGTTCCTGAAGCTGAAAGCTCAGAACGAGAGAGAGAAGTTTGCTTTCTG CTCCATGAAAG GCTGTGAGAGGATAAAGATTAAAGCTCTGATTCCAAAGAACGCAGGCGTCAGTG ACTGCACAGC CACAGCTTACCCCAAGTTCACCGAGAGGGCTGTCGTAGACGTGCCGATGCCCAA GAAGCTCTTTG GTTCTCAGCTG 8869 ST3GAL5 HSX2_01367269 102 AGAGCTCAGAAATATGCTCAGCAAGTCTTGCAGAAGGAATGTCGTCCCAAGTTT GCCAAGACATC AATGGCGCTGTTATTTGAGCACAGGTATAGCGTGGACTTACTCCCTTTTGTGCAG 8869 ST3GAL5 HSX2_01367270 103 AAGGCCCCCAAAGACAGTGAAGCTGAGTCCAAGTACGATCCTCCTTTTGGGTTC CGGAAGTTCTC CAGTAAAGTCCAGACCCTCTTGGAACTCTTGCCAGAGCACGACCTCCCTGAACAC TTGAAAGCCA AGACCTGTCGGCGCTGTGTGGTTATTGGAAGCGGAGGAATACTGCACGGATTA GAACTGGGCCA CACCCTGAACCAGTTCGATGTTGTGATAAG 8869 ST3GAL5 HSX2_01367276 104 GTTAAACAGTGCACCAGTTGAGGGATATTCAGAACATGTTGGAAATAAAACTAC TATAAGGATGA CTTATCCAGAGGGCGCACCACTGTCTGACCTTGAATATTATTCCAATGACTTATTT GTTGCTGTTTT ATTTAAGAGTGTTGATTTCAACTGGCTTCAAGCAATGGTAAAAAAGGAAACCCT G 8869 ST3GAL5 HSX2_01367281 105 CCATTCTGGGTACGACTCTTCTTTTGGAAGCAGGTGGCAGAAAAAATCCCACTGC AGCCAAAACA TTTCAGGATTTTGAATCCAGTTATCATCAAAGAGACTGCCTTTGACATCCTTCAGT ACTCAGAGCC TCAGTCAAGGTTCTGGGGCCGAGATAAG 4435 CITED1 HSX2_01064533 106 CTATAAAAATGTGCCCGGCGGCAAAGCTGCAGAAGGGGCACCGCTGAGCTGCC GAGAGGAAGC TCGCTCTGCCCGGCTGCCCTCTTGTAGTCCGCCGGCGAGGGGCAGTTCTCGGTG AGGAGGAAGA GAGC 4435 CITED1 HSX2_01064535 107 GCACAGCACCCGCGCGGGCCCTCC 4435 CITED1 HSX2_01064539 108 CACAACAGCTCCAGCTGGCAGCATCACTTCCCGCCAATTTATCCAACTTCTGCCA AGGCTCTGAAA TGCCAACAACGTCGAGGCCTGCACTTGATGTCAAGGGTGGCACCTCACCTGCGA AGGAG 4435 CITED1 HSX2_01064543 109 GATGCCAACCAAGAGATGAGCTCCGTGGCCTACTCCAACCTTGCGGTGAAAGAT CGCAAAGCAG TGGCCATTCTGCA 4435 CITED1 HSX2_01064546 110 GCCAGTGGGGCTCCCACTAGTTCCTCGGGATCTCCAATAGGCTCTCCTACAACCA CCCCTCCCACT AAA 4435 CITED1 HSX2_01064547 111 CCCCCATCCTTCAACCTGCACCCCGCCCCTCACTTGCTGGCTAGTATGCACCTGCA GAAACTTAAT AGCCAGTATCAGGGGATGGCTGCTGCCACTCCAGGCCAACCCGGGGAGGCAGG ACCCCTGCAA AACTGGGACTTTGGGGCCCAGGCGGGAGGGGCAGAATCACTCTCTCCTTCTGCT GGTGCCCAG 4435 CITED1 HSX2_01064548 112 AGCCCTGCTATCATCGATTCGGACCCAGTGGATGAGGAAGTGCTGATGTCGCTG GTGGTGGAAC TGGGGTTGGACCGAGCCAATGAGCTTCCGGAGCTGTGGCTGGGGCAGAATGAG TTTGACTTCAC TGCGGACTTTCCATCTAGCTGCTAATGCCAAGTGTCCCTAAAGATGGAGGAATA AAGCCACCAAT TCTGTTGTAAATAAAAATAAAGTTACTTACAA 4435 CITED1 HSX2_01064567 113 GAGTCCCTGCTTCGCAGAGCACCGGACTTGGAGTCAGAGAGACCTGGCTGCGA ATCCCGGCTCC GCCACTTTCTAGCGCTGTGACCTTGG 4435 CITED1 HSX2_01064569 114 TTTTCAGGTGGCGAAACTGACTGGTCTGGTTAGAGCGCGTCCAAGCCAAGCCGC AGTGCTGTTTG GATTTTTAAATTTCTCCTTCTGAGTGAGAAAATAGCAATCGAGATGGAACCATCC G 4435 CITED1 HSX2_01064572 115 TAGCGCTGTGACCTTGGTTTTCAGGTGGCGAAAC 4435 CITED1 HSX2_01064573 116 CGAGATGGAACCATCCGCACAACAGCTCCAGCTG 4435 CITED1 HSX2_01064574 117 TAGCGCTGTGACCTTGGCACAACAGCTCCAGCTG 4435 CITED1 HSX2_02509162 118 CTATAAAAATGTGCCCGGCGGCAAAGCTGCAGAAGGGGCACCGCTGAGCTGCC GAGAGGAAGC TCGCTCTGCCCGGCTGCCCTCTTGTAGTCCGCCGGCGAGGGGCAGTTCTCGGTG AGGAGGAAGA GAGCAGCGGACGGCACAGCACCCGCGCGGGCCCTCC 4435 CITED1 HSX2_02509166 119 GATGCCAACCAAGAGATGAGCTCCGTGGCCTACTCCAACCTTGCGGTGAAAGAT CGCAAAGCAG TGGCCATTCTGCACTACCCTGGGGTAGCCTCAAATGGAACCAAGGCCAGTGGGG CTCCCACTAGT TCCTCGGGATCTCCAATAGGCTCTCCTACAACCACCCCTCCCACTAAACCCCCATC CTTCAACCTGC ACCCCGCCCCTCACTTGCTGGCTAGTATGCACCTGCAGAAACTTAATAGCCAGTA TCAGGGGATG GCTGCTGCCACTCCAGGCCAACCCGGGGAGGCAGGACCCCTGCAAAACTGGGA CTTTGGGGCCC AGGCGGGAGGGGCAGAATCACTCTCTCCTTCTGCTGGTGCCCAGAGCCCTGCTA TCATCGATTCG GACCCAGTGGATGAGGAAGTGCTGATGTCGCTGGTGGTGGAACTGGGGTTGGA CCGAGCCAAT GAGCTTCCGGAGCTGTGGCTGGGGCAGAATGAGTTTGACTTCACTGCGGACTTT CCATCTAGCTG CTAATGCCAAGTGTCCCTAAAGATGGAGGAATAAAGCCACCAATTCTGTTGTAA ATAAAAATAAA GTTACTTACAA 1188 CLCNKB HSX2_00842841 120 ATCAGTGTCGCCCCCAGGCGTCCTGTTCAGCATC 9076 CLDN1 HSX2_01381993 121 GCACATTGCAAGCAACCCGTGCCTTGATGGTGGTTGGCATCCTCCTGGGAGTGA TAGCAATCTTT GTGGCCACCGTTGGCATGAAGTGTATGAAGTGCTTGGAAGACGATGAGGTGCA GAAGATGAGG ATGGCTGTCATTGGGGGTGCGATATTTCTTCTTGCAG 9076 CLDN1 HSX2_01381997 122 GTCTGGCTATTTTAGTTGCCACAGCATGGTATGGCAATAGAATCGTTCAAGAATT CTATGACCCTA TGACCCCAGTCAATGCCAG 9076 CLDN1 HSX2_01382002 123 GTACGAATTTGGTCAGGCTCTCTTCACTGGCTGGGCTGCTGCTTCTCTCTGCCTTC TGGGAGGTGC CCTACTTTGCTGTTCCTGTCCCCGAAAAACAACCTCTTACCCAACACCAAGGCCCT ATCCAAAACC TGCACCTTCCAGCGGGAAAGACTACGTGTGACACAGAGGCAAAAGGAGAAAAT CATGTTGAAAC AAACCGAAAATGGACATTGAGATACTATCATTAACATTAGGACCTTAGAATTTTG GGTATTGTAAT CTGAAGTATGGTATTACAAAACAAACAAACAAACAAAAAACCCATGTGTTAAAAT ACTCAGTGCT AAACATGGCTTAATCTTATTTTATCTTCTTTCCTCAATATAGGAGGGAAGATTTTTC CATTTGTATTA CTGCTTCCCATTGAGTAATCATACTCAACTGGGGGAAGGGGTGCTCCTTAAATAT ATATAGATATG TATATATACATGTTTTTCTATTAAAAATAGACAGTAAAATACTATTCTCATTATGTT GATACTAGCA TACTTAAAATATCTCTAAAATAGGTAAATGTATTTAATTCCATATTGATGAAGATG TT 149461 CLDN19 HSX2_02242186 124 ACACCTGTCAATGCCAGGTATGAATTTGGCCCAG 53405 CLIC5 HSX2_01785484 125 AACACCGGGAATCCAACACAGCGGGCATCGACAT 79745 CLIP4 HSX2_02019683 126 CTTTCTTTGATCCTAATGATGCATCATGCCAGGAAATTCTTTTTGATCCCAAAACTT CAGTTTCAGA ATTATTTGCCATTTTGAGACAGTGGGTTCCTCAGGTCCAACAAAACATTGACATTA TTGGAAATGA G 79745 CLIP4 HSX2_02019711 127 ATTGACAGATATGACTCTTTTACATTATACCTGCAAATCTGGAGCTCATGGTAT 79745 CLIP4 HSX2_02019770 128 ATGTGGATGCCACTTGCAGTGATTTTAATTTTGGAACAGCTTTGCATATTGCAGC ATACAACTTGT GTGCAGGTGCTGTGAAGTGCCTCTTGGAGCAGGGAGCAAATCCTGCATTTAGG 1271 CNTFR HSX2_02496357 129 GCATGGCTCCAAAATTATGGTCTGTGAGAAGGACCCAGCCCTCAAGAACCGCTG CCACATTCGCT ACATGCACCTGTTCTCCACCATCAAGTACAAGGTCTCCATAAGTGTCAGCAATGC CCTGGGCCAC AATGCCACAGCTATCACCTTTGACGAGTTCACCATTG 8506 CNTNAP1 HSX2_01339423 130 AAGAGCGGAGGACCAGGAACCAGAGAGAGAGAGAGAGAAAAGAGAGAGGAG AGACAGAGCG CTTGGGGGCGAAAGGAGAGAGGGAGGGAAGGGTGGGTAAGGAGGAGAGAGC GGTCTGCTGC AAACCCCAGGAGGAGAGCTTGGAGCCCAAGCCAGAACTCGAGCCCTAGCCGGA GCCGTTCACA GGGAGGCGGCTGCCGGGACCGTCAGCCCTGCATGATGCATCTCCGGCTCTTCTG CATCCTGCTCG CCGCGGTCTCAGGAGCCGAGGGCTGGGGCTACT 1281 COL3A1 HSX2_00847965 131 GGTAACCCAGGACCCCCAGGTCCCAGCGGTTCTCCAGGCAAGGATGGGCCCCCA GGTCCTGCGG GTAACACTGGTGCTCCTGGCAGCCCTGGAGTGTCTGGACCAAAAGGTGATGCTG GCCAACCAGG AGAGAAGGGATCGCCTGGTGCCCAGGGCCCACCA 1290 COL5A2 HSX2_00850255 132 GCCCAAAAGGGGAACCAGGGCCACATGGTATTCA 50509 COL5A3 HSX2_01735527 133 GGGAATACTGGATTGACCCCAACCAGGGCTGCGCGCGGGACTCGTTCAGGGTTT TTTGCAACTTC ACGGCGGGAGGAGAGACCTGCCTCTATCCCGACAAGAAGTTTGAGATC 6271 S100A1 HSX2_01205429 134 GCCACATTTGCAACCTTGGCCATCTGTCCAGAACCTGCTCCCACCTCAGGCCCAG GCCAACC 6271 S100A1 HSX2_01205433 135 GTGCACTGCTGCAATGGGCTCTGAGCTGGAGACGGCGATGGAGACCCTCATCAA CGTGTTCCAC GCCCACTCGGGCAAAGAGGGGGACAAGTACAAGCTGAGCAAGAAGGAGCTGAA AGAGCTGCTGCAGACGGAGCTCTCTGGCTTCCTGGAT 6271 S100A1 HSX2_01205437 136 GCCCAGAAGGATGTGGATGCTGTGGACAAGGTGATGAAGGAGCTAGACGAGAA TGGAGACGG GGAGGTGGACTTCCAGGAGTATGTGGTGCTTGTGGCTGCTCTCACAGTGGCCTG TAACAATTTCT TCTGGGAGAACAGTTGAGCAGACAGCCACATTGGGCAGCGCCCTTCCTCTCCACC CTCCCAGACC TGCCTCTTCCCCCTGCTTCCACCTCACCCCACTTATCCCTCTCCATAACCCCACCCTT GCCCACCCC ACCCCCACCCCCACCAAGGGCGCAAGAGTAGCGGTCCAAGCCTGCAACTCATCTT TCATTAAAGG CTTCTCTCTCACCAGC 64478 CSMD1 HSX2_01977629 137 CGGAATGTGGTGGTCAGATCCATGCAGCCACATCAGGACGAATATTGTCCCCTG GCTATCCAGCT CCGTATGACAACAACCTCCACTGCACCTGGATTATAGAGGCAGACCCAGGAAAG ACCATTAG 1465 CSRP1 HSX2_00864524 138 TGCAAGAAGAATCTGGACAGTACCACTGTGGCCGTGCATGGTGAGGAG 1474 CST6 HSX2_00864973 139 GAGGGCTCCGACGGCACTGACGGCCATGGCGCGTTCGAACCTCCCGCTGGCGCT GGGCCTGGCC CTGGTCGCATTCTGCCTCCTGGCGCTGCCACGCGACGCCCGGGCCCGGCCGCAG GAGCGCATGG TCGGAGAACTCCGGGACCTGTCGCCCGACGACCCGCAGGTGCAGAAGGCGGCG CAGGCGGCCG TGGCCAGCTACAACATGGGCAGCAACAGCATCTACTACTTCCGAGACACGCACAT CATCAAGGCG CAGAGCCAG 1499 CTNNB1 HSX2_00866738 140 CTGATTTGATGGAGTTGGACATGGCCATGGAACCAGACAGAAAAGCGGCTGTTA GTCACTGGCA GCAACAGTCTTACCTGGACTCTGGAATCCATTCTGGTGCCACTACCACAGCTCCTT CTCTGAGTGG TAAAGGCAATCCTGAGGAAGAGGATGTGGATACCTCCCAAGTCCTGTATGAGTG GGAACAGGGA TTTTCTCAGTCCTTCA 1499 CTNNB1 HSX2_00866791 141 CTCTTCGTCATCTGACCAGCCGACACCAAGAAGCAGAGATGGCCCAGAATGCAG TTCGCCTTCAC TATGGACTACCAGTTGTGGTTAAGCTCTTACACCCACCATCCCACTGGCCTCTGAT AAAG 1499 CTNNB1 HSX2_00866821 142 ACTGCTGATCTTGGACTTGATATTGGTGCCCAGGGAGAACCCCTTGGATATCGCC AGGATG 1499 CTNNB1 HSX2_02497461 143 CTCATCATACTGGCTAGTGGTGGACCCCAAGCTTTAGTAAATATAATGAGGACCT ATACTTACGAA AAACTACTGTGGACCACAAGCAGAGTGCTGAAGGTGCTATCTGTCTGCTCTAGTA ATAAGCCGGC TATTGTAGAAGCTG 1508 CTSB HSX2_00867649 144 AGAATCACGTCCTGGAACTGCATGTTCTTGCGACTCTTGGGACTTCATCTTAACTT CTCGCTGCCC CAGCCATGTTTTCAACCATGGCATCCCTCCCCCAATTAGTTCCCTGT 7050 TGIF1 HSX2_02521755 145 GTCTGTAACTGGTTCATCAACGCCCGCCGCAGGCTCCTCCCTGACATGCTGAGAA AGGATGGCAA AGATCCAAATCAGTTCACAATTTCCCGCCGTGGGGCCAAGATTTCTGAAACGAGC TCTGTGGAGT CCGTGATGGGCATCAAAAACTTCATGCCAGCTCTAGAGGAGACCCCATTTCATTC CTGTACAGCT GGGCCAAACCCAACCCTAGGGAGGCCACTGTCTCCTAAGCCGTCATCCCCGGGA TCAGTTTTGGC TCGTCCATCAGTGATCTGCCATACCACTGTGACTGCATTGAAAGATGTCCCTTTCT CTCTCTGCCA GTCGGTCGGTGTGGGACAAAACACAGATATACAGCAGATAGCGGCCAAAAACTT CACAGACACC TCTCTCATGTACCCAGAGGACACTTGTAAATCTGGACCAAGTACGAATACACAGA GTGGTCTTTTC AACACTCCTCCCCCTACTCCACCGGACCTCAACCAGGACTTCAGTGGATTTCAGCT TCTAGTGGAT GTTGCACTCAAACGGGCTGCAGAGATGGAGCTTCAGGCAAAACTTACAGCTTAA CCCATTTTCAA GCAAAACAGTTCTCAGAAATGTCATGATTGCCGGGGTGAAGGCAAGAGATGAAT TGCATTATTTT ATATATTTTTTATTAATATTTGCACATGGGATTGCTAAAACAGCTTCCTGTTACTG AGATGTCTTCA ATGGAATACAGTCATTCCAAGAACTATAAACTTAAAGCTACTGTAGAAACAAAGG GTTTTCTTTTT TAAATGTTTCTTGGTAGATTATTCATAATGTGAGATGGTTCCCAATATCATGTGAT TTTTTTTTCCTC CCCTTCCCTTTTTTTGTTATTTTTTCAGACTGTGCAATACTTAGAGAACCTATAGCA TCTTCTCATTC CCATGTGGAACAGGATGCCCACATACTGTCTAATTAATAAATTTTCCATTTTTTTTC AAACAA 29087 THYN1 HSX2_01718539 146 ATCTCCGTTGATTCCAGAATCGTCCGCACTAAAG 153090 DAB2IP HSX2_02252381 147 GTGAGTTCATCAAAGCGCTGTATGAGTCAGATGAGAACTGCGAAGTGGATCCCA GCAAGTGCTC GGCCGCTGACCTCCCAGAGCACCAGGGCAACCTCAAGATGTGCTGCGAGCTGGC CTTCTGCAAG ATCATCAACTCCTACTG 153090 DAB2IP HSX2_02252398 148 TGTCTTCCCACGGGAGTTGAAAGAGGTGTTTGCCTCGTGGAGGCAGGAGTGCAG CAGTCGCGGC CGCCCGGACATCAGTGAGCGGCTCATCAGCGCCTCCCTCTTCCTGCGCTTCCTCTG CCCAGCCATC ATGTCGCCCTCACTCTTCAACCTGCTGCAGGAGTACCCTGATGACCGCACTGCCC GCACCCTCACC CTCATCGCCAAGGTCACCCAGAACCTGGCCAACTTTGCCAA 153090 DAB2IP HSX2_02252492 149 GAGAAGCGCATTGCCTCGTTGGATGCCGCCAATGCCCGCCTCATGAGTGCCCTG ACCCAGCTGAA AGAGAG 1611 DAP HSX2_00873858 150 TGAAAGCTGGTGGAATGCGAATTGTGCAGAAACACCCACATACAG 1611 DAP HSX2_00873859 151 GAGACACCAAAGAAGAGAAAGACAAGGATGACCAGGAATGGGAAAGCCCCAG 1717 DHCR7 HSX2_00880610 152 GTGGACTGGTTTTCACTGGCGAGCGTCATCTTCCTACTGCTGTTCGCCCCCTT 9249 DHRS3 HSX2_01394249 153 GCCTTCCTGCCACGTATGCTGGAGCTGCAGAATGGCCACATCGTGTGCCTCAACT CCGTGCTGGC ACTGTCTGCCATCCCCGGTGCCATCGACTACTGCACATCCAAAGCGTCAGCCTTC GCCTTCATGGA GAGCCTGACCCTGGGGCTGCTGGACTGTCCGGGAGTCAGCGCCACCACAGTGCT GCCCTTCCAC ACCAGCACCGAGATGTTCCAGGGCATGAGAGTCAG 9249 DHRS3 HSX2_02529585 154 ACCACCAAGGCCTTCCTGCCACGTATGCTGGAGCTGCAGAATGGCCACATCGTGT GCCTCAACTC CGTGCTGGCACTGTCTGCCATCCCCGGTGCCATCGACTACTGCACATCCAAAGCG TCAGCCTTCG CCTTCATGGAGAGCCTGACCCTGGGGCTGCTGGACTGTCCGGGAGTCAGCGCCA CCACAGTGCT GCCCTTCCACACCAGCACCGAGATGTTCCAGGGCATGAGAGTCAG 1730 DIAPH2 HSX2_00881579 155 TCTAGATAAACTTTTAGGGGCTATAACAACAGCAGCAGAAAGAAATAACAGGGA ACGATTTTCAC CAATTGTGGAAGGTTTAGAAAATCAGGAAGCCTTGCAATTACAG 1756 DMD HSX2_00884014 156 GTGAGGAAGATCTTCTCAGTCCTCCCCAGGACACAAGCACAGGGTTAGAGGAGG TGATGGAGCA ACTCAACAACTCCTTCCCTAGTTCAAGAG 56171 DNAH7 HSX2_01892342 157 CACAAAAGCTACATCGAATACACAAAGACTCTGCCACTGACCCCAGCACCAGAAA TCTTTGGGAT GAATGCCAATGCAGATATCACTAAGGATCAGTCAGAAACTCAGCTGCTATTTGAT AACATTCTTCT TACACAG 23348 DOCK9 HSX2_01626871 158 GACATTGTTTAAGGATGCATCTGGAAATCTTGACAAAAATGCCAGATTTTCTGCC ATCTACAGGCA AGACAGCAATAAGCTATCCAATGATGACATGCTCAAGTTACTTGCAGACTTTCGG AA 23348 DOCK9 HSX2_01627334 159 ATGTCCATTTCAACGAGGATGTGCTGATGGAGCT 23348 DOCK9 HSX2_01627375 160 GTCAATGCTGGCCCACTAGCATATGCGCGAGCTTTCTTAGATGATACAAACACAA AGCGATATCC TGACAATAAAGTGAAGCTGCTTAAGGAAGTTTTCAG 23348 DOCK9 HSX2_01627409 161 AACGCCATCAGTGGGACTCCAACAAGCACAATGG 54344 DPM3 HSX2_02553775 162 AGTTCGGACCTCTGGGATCGGCGATTCCCCTCTGGCCAGGGCTGGTTTTAATGCT CTCCGTGGGC GGGCTTCGGTTGAGTTTGGTCCGCTTTTCCTTTCTGCTCCTCAGGGGAGCATTGCT TCCTTCTCTC GCA 1809 DPYSL3 HSX2_00890973 163 CTGGAAGCTGAGGCTGTGTTCCGTGCCATCACCATTGCCAGCCAAACCAATTGCC CTCTCTACGTC ACAAAGGTCATGAGCAAGAGTGCAGCTGACCTCATCTCACAAGCCAGGAAAAAA G 1837 DTNA HSX2_00892824 164 AGGATGAGATCATAGTTTCAGGATCCTCAGGAAACCCTGGTACTGGCAGCAGCC AGCCTCTGCTGTGCCCACATGACCCACAACTCTGGC 23220 DTX4 HSX2_01610552 165 GAATCACTGGGATCCTCATGAGTGCAGCGGGGCTGCCTGTGTGTCTCACCAGGC CACCAAAGCT GGTCCTACACCCACCCCCCGTCAGCAAGAGTGAAATAAAATCCATCCCAGGGGTT TCCAACACAA GCCGCAAGACCACCAAAAAACAAGCCAAGAAAG 53905 DUOX1 HSX2_01787484 166 GTGCTGGACATCAACCAGGCCGACGCAGGGACCCTGCCCCTGGACTCCTCCCAG AAGGTGCGGG AGGCCCTGACCTGTGAGCTGAGCAGGGCCGAGTTTGCCGAGTCCCTGGGCCTCA AGCCCCAGGA CATGTTTGTGGAGTCCATGTTCTCTCTGGCTGACAAGGATGGCAATGGCTACCTG TCCTTCCGAGAGTTCCTGGACATCCTGGTGGTCTTCATGAAAG 1846 DUSP4 HSX2_00893757 167 GGCTCAAGAGATCCTCCCACCTCGGCCTCCTGAGTAGCTGGGACTGCAGGTGTG TGTCATCATGA CCAATGTGAATTGCTTTTGAAGCTGGTTCATGGGCATGTAGGCCACCGAAGCAAT TTTAGACCAC AGTAAGTCAAGCTTTTTTCCCTCCGATGATCACTGGGTGGTTGCAGCATTTTTTGC ATAAACCTGC CTAAGACTTGTCTATCGTCTGTGATCAATATGCCATATTACACTAAGGTGCTCCTG GAAAATTGGG TGCAGTTCAAATTTTCCTACAGCAAATCATTTGGCAAGGCCAGCCATTGGGGAAA CCAGACAACT AGAGATAACCCTGAAATGAATCCTTTTGTAAATTGAAGCACCATCTTTTCTTTTTTT GCATAAATTG GAGGTTTTAATTTTAGGGCAGTTACCTGAAGTGAAATATACCAACAATTTCTTGT GTTCTTTAAATT CCTAGTTAGGTGAATATTTTTGAAGGTCCTCTTTTGAATAAAGAGGGGAATGGAC ACCACATTTCA GGTCTTCTCGAAGTGTGGAAGGGCAAGAGAGCATCAGTGAGCTGATGGTGGAT TGCTTACATCG GATTCCATTGGTATGAATTTCCCAAACTGGAAATCAAAGCGCCAGGGTGGGGTT GGGGCTGACT GCTGGTGAGGGGGCTGGCCGCTGGCTCCCGTGACGTGCGTCATGGGCACGCAG GCGCCATTTTG AATCTATCGTCGGCACGTGGGTGCCATTTTGAATCCTTAGTTGGGCCTTTCTAAAT GGAGAATGG CTTTGGAGGGAGACACGTTTTCTGTGGGGAGGGTTTGGGGGGGAGGGAGGAG GGAACAAGCTA CATGCTATTTTGTTTGTAGTATTGTGGAACAGTCTTGTTATGGAGTGCCAGCTTAG AGGTTGTTGC AAACTTGTCTAGAAGTGAGAGCATGGTTTTTTTTAGCCCTTTGAGAGTCTACATCT AATGAACATT CTTGCTCACCCATAAATAACGTCAAGCCTCAATGTCACCGTCACGTTGGGATACTC TTTCTCATCT GGCATCCTAGACAGGACAAGGTTGGTTACCTTTCCTTCCATGAACCATGAACCTG TGACGGCATC ATTCATCCTGACTTCACCAAGCTCCGCCTGTGGGTGAGGCCAGAGCTCCCACTGG CAATTTTTAG AAGAGCCAGAGGCTCCCTGCTTCCTCTAGAAATAACAGTTCAGGGTGAAGCATG GAGGGTTTCA GTTCCCAGACAATGGAACCATTTAGAGACAACACAGTTGGACATTTCCACTTTTTC CTTGATTCCT GGAAGTCCAGTGGGTTCTGCAGCTGAAAAAGCCCTGGGTCCCAGCAGCAGAGA GACAGGACAG AGGGGATGCTTGGGCGGGGAGGGACGGTAACCTGCAGAACAGATTCCATTTTTA TAGAACGAGT ACACGTTTGCTAAAACAGTCCTGCTTTCCCAGACTGGATTCCCACCACAGGGACA GTCGGAACTC AGGACTAGCTCCAGCGACATCTTTCCTCCGAATTCAAGCCTTCTATCACAATGTCA AAACAGCTAT TTATAAAGCCATTTTCATTGTACTTGATAACAGCACGAGTCCCAAAACTTTTAGAA ATAAAATAGG ACATTGGCTTGATTGAAAAGAGGGACTTTTTAAAAATTGTTCTTTCGTCAGAAGC CTTTTGGATGA CTTACAATAGCTCTGATGAAGATACCACCCCAGCGTCAGTCCAATAGGTCAGTGA GTTTCAACAG GCATCCATCCCTCCCATGAAGGGATTCTGGTGATGGGAAGTTTCTGTAATGACAG GAAAGCATTG ACCCTCATTGATTGTCAACTTTGGTATTAGCCATGAAAGACAGGATGCTCATTGG GTGTTCTGTAG AGTGAGGAATGCTGCCTATTCCCTCCCAGAACGTCTGACCCAGGGGTGTGTGTTG AGGAGCCCT GGGGGAAATGGACCAAGTTTTCCCACAGAGCAGTATTAGGCTGAAGAGCAGGT GACTGGTAGG CCCCAGCTCCCATCATTCCCTCCCAAAGCCATTTTGTTCAGTTGCTCATCCACGCTG GATTCCAGA GAGTTTTCCAATTTGGGAAGCCATGAGAAAGGTTTTTAAATCTTGGGAAGATGG AGAGAGGGAC ATAGGATAGTTGACTCCAACATGACAGGAAGAGGCTGGAGATTGGGAATTGGC CATCAACCAAG 1877 E4F1 HSX2_00894999 168 CCCCCCGTCTCCCAGGAGCTCCCCTGCTCCAGCGAGGGCAGCCGTGAGAACCTG CTGCACCAG 1889 ECE1 HSX2_00895217 169 ACCCCAACGGCCTGCAGGTGAACTTCCACAGCCC 1889 ECE1 HSX2_00895219 170 GATCCCCCTCTGTGTGCCTGAGCGAAGCTTGTGTCTCAGTGACCAGCTCCATCTT GAGCTCCATG GACCCCACAGTGGACCCCTGCCATGACTTCTTCAGCTACGCCTGTGGGGGCTGGA TCAAGGCCAA CCCAGTCCCTGATGGCCACTCACGCTGGGGGACCTTCAGCAACCTCTGGGAACAC AACCAAGCA ATCATCAAGCACCTCCTCG 1889 ECE1 HSX2_00895231 171 CTCGGGGGCTGGAACATCACAGGTCCCTGGGCCAAGGACAACTTCCAGGACACC CTGCAGGTGG TCACCGCCCACTACCGCACCTCACCCTTCTTCTCTGTCTATGTCAGTGCCGATTCCA AGAACTCCAA CAGCAACGTGATCCAG 1889 ECE1 HSX2_00895252 172 ACAACTACATGATCTGGAACCTGGTGCGGAAAACAAGCTCCTTCCTTGACCAGCG CTTTCAGGAC GCCGATGAGAAGTTCATGGAAGTCATGTACGGGACCAAGAAG 1889 ECE1 HSX2_00895278 173 GTGGAGCATGACCCCGCCCATGGTGAACGCCTACTACTCGCCCACCAAGAATGA GATTGTGTTTC CGGCCGGGATCCTGCAGGCACCATTCTACACACGCTCCTCACCCAA 1889 ECE1 HSX2_00895288 174 GACGGGAGTATGACAAGGACGGGAACCTCCGGCCATGGTGGAAGAACTCATCC GTGGAGGCCT TCAAGCGTCAGACCGAGTGCATGGTAGAGCAGTACAGCAACTACAGCGTGAACG GGGAGCCGG TGAACGGGCGGCACACCCTGGGGGAGAACATCGCCGACAACGGGGGTCTCAAG GCGGCCTATC GG 1893 ECM1 HSX2_00895741 175 TGGGAGGATACCCTTGACAAATACTGTGACCGGGAGTATGCTGTGAAGACCCAC CACCACTTGTG TTGCCGCCACCCTCCCAGCCCTACTCGGGATGAGTGCTTTGCCCGTCGGGCTCCTT ACCCCAACTA TGACCGGGACATCTTGACCATTGACATCGGTCGAGTCACCCCCAACCTCATGGGC CACCTCTGTGGAAACCAAAGAGTTCTCACCAAGCA 2202 EFEMP1 HSX2_00921723 176 ACAGCCCAGATTATTGTCAATAATGAACAGCCTCAG 1958 EGR1 HSX2_00900683 177 AGTCTTTTCCTGACATCTCTCTGAACAACGAGAAGGTGCTGGTGGAGACCAGTTA CCCCA 1958 EGR1 HSX2_00900684 178 GCCAAACCACTCGACTGCCCCCCATCACCTATACTGGCCGCTTTTCCCTGGAGCCT GCACCCAACA 1958 EGR1 HSX2_00900686 179 GCCTCCGCCTCCCAGAGCCCACCCCTGAGCTGCGCAGTGCCATCCAACGACAGCA GTCCCATTTA CTCAG 1958 EGR1 HSX2_00900687 180 CGGCACCCACCTTCCCCACGCCGAACACTGACATTTTC 1958 EGR1 HSX2_00900688 181 CCTGAGCCACAAAGCCAGGCCTTCCCGGGCTCGGCAGGGACAGCGCTCCAGTAC CCGCCTCCTG CCTACCCTGCCGCCAAGGGTGGCTTCCAGGTTCCCATGATCCCCGACTACCTGTTT CCACAGCAG CAGGGGGATCTGGGCCTGGGCACCCCAGACCAGAAGCCCTTCCAGGGCCTGGA GAGCCGCACC CAGCAGCCTTCGCTAACCCCTCTGTCTACTATTAAGGCCTTTGCCACTCAG 1958 EGR1 HSX2_00900689 182 TCGGGCTCCCAGGACCTGAAGGCCCTCAATACCAGCTACCAGTCCCAGCTCATCA AACCCAGCCG CATGCGCAAGTACCCCAACCGGCCCAGCAAGACGCCCCCCCACGAACGCCCTTAC GCTTGCCCAG TGGAGTCCTGTGATCGCCGCTTCTCCCGCTCCGACGAGCTCACCCGCCACATCCG CATCCACACA GGCCAGAAGCCCTTCCAGTGCCGCATCTGCATGCGCAACTTCAGCCGCAGCGAC CACCTCACCAC CCACATCCGCACCCACACAGGCGAAAAGCCCTTCGCCTGCGACATCTGTGGAAG AAAGTTTGCCA GGAGCGATGAACGCAAGAGGCATACCAAGATCCACTTGCGGCAGAAGGACAAG AAAGCAGACA AAAGTGTTGTGGCCTCTTCGGCCACCTCCTCTCTCTCTTCCTACCCGTCCCCGGTT GCTACCTCTTA CCCGTCCCCGGTTACTACCTCTTATCCATCCCCGGCCACCACCTCATACCCATCCCC TGTGCCCACC TCCTTCTCCTCTCCCGGCTCCTCGACCTACCCATCCCCTGTGCACA 1958 EGR1 HSX2_00900692 183 AAAAAAAAAAGAAAAGCCAAGCAAACCAATGGTGATCCTCTATTTTGTGATGAT GCTGTGACAAT AAGTTTGAACCTTTTTTTTTGAAACAGCAGTCCCAGTATTCTCAGAGCATGTGTCA GAGTGTTGTT CCGTTAACCTTTTTGTAAATACTGCTTGACCGTACTCTCACATGTGGCAAAATATG GTTTGGTTTTT CTTTTTTTTTTTTTTTGAAAGTGTTTTTTCTTCGTCCTTTTGGTTTAAAAAGTTTCAC GTCTTGGTGCC TTTTGTGTGATGCGCCTTGCTGATGGCTTGACATGTGCAATTGTGAGGGACATGC TCACCTCTAGC CTTAAGGGGGGCAGGGAGTGATGATTTGGGGGAGGCTTTGGGAGCAAAATAAG GAAGAGGGCT GAGCTGAGCTTCGGTTCTCCAGAATGTAAGAAAACAAAATCTAAAACAAAATCTG AACTCTCAAA AGTCTATTTTTTTAACTGAAAATGTAAATTTATAAATATATTCAGGAGTTGGAATG TTGTAGTTACC TACTGAGTAGGCGGCGATTTTTGTATGTTATGAACATGCAGTTCATTATTTTGTG GTTCTATTTTAC TTTGTACTTGTGTTTGCTTAAACAAAGTGACTGTTTGGCTTATAAACACATTGAAT GCGCTTTATTG CCCATGGGATATGTGGTGTATATCCTTCCAAAAAATTAAAACGAAAATAAAGTA GCTGCGATTGG G 1967 EIF2B1 HSX2_00901053 184 TAAGAAAATGGCCAAAGCCCTCTGCCACCTCAACGTCCCTGTCACTGTGGTGCTA GATGCTGCT 55740 ENAH HSX2_01871605 185 TGAACAGAGTATCTGTCAGGCAAGAGCTGCTGTGATGGTTTATGATGATGCCAA TAAGAAGTGG GTGCCAGCTGGTGGCTCAACTGGATTCAGCAGAGTTCATATCTATCACCATACAG GCAAC 55740 ENAH HSX2_01871707 186 CAATCAGGCAGGAACTGAGCAAGTCAAATACTGCATAGAGGAACAGACTAAGG AGAGATAGGA CTTTAATCTGGAGGAAAAATATCCTACAAACAACAACTGTTCACAACAGCAAACC CCTACATTTAT GAGCTGTAAGAAGAAAATGGAGACAAACAGAAGGAGGGAAAAACCAACCTACT CTGAAAGCCTT CAGACATTATGACTCTGGTGATAAGCTCTTTCCCTCTCCGTTTGCTGCTTTTTTCTG GCCTTTACAA CAGAATGGAAGAGAATCATTTAAGAGTTCCTGTAACAGTTATGCAGAAAATACTA AAACCCATCA GGCAAGATCACCACGCATTGAAATATTTTCATATCAAGATAAAGTCGCACATTTT CCACAATACAT TGCTAAAATAAAGAGGAGAAAGGCTTAGGAAGTTTTTTTGCAGAGAGTGCTGGT AAAGAATTGA GCAAGTTTGCTATTGTATTGTAATGTTTCTCTCAGGTTTGTTCTTCCTATCATGTTT GATATTCCATG AATAATTGAGATCAGCCCTATGTAAGTTAAGATCATAATATGTGGAACAAATGGA ATTGTAAGTG CTTTCAAAGGGTAATATTTATAAGAAAGTGTCCGAAAAATGTTTCTTCAGCTTGA GAAATTTTAGA ATGATAGGAAGTTTCTCGAGTTAGCCTTCATGCAATTTTGTAGATTAAAACATAA AATTTGTCCAG AACTTAA 55740 ENAH HSX2_01871807 187 TATGATTCATTACACAGACCAAAATCCACACCCT 55740 ENAH HSX2_01871851 188 TCACCTGTTATCTCCAGACCAAAATCCACACCCT 23052 ENDOD1 HSX2_01590519 189 ATCGATGACCCCAACAGCAACCTTGAGGAGGCGATTAATGAGGCAGAGGCCATC ACCTCTGTGA ACAGCCTGGGAAGCAAGCAAGCCTTGAATACAGATTACCTTGATTCTGATTACCA AAGAGGACAG CTTTACCCATTCTCCCTTAGCAGTGATGTCCAGGTGGCCACATTTACTCTCACAAA TTCAGCCCCAA TGACTCAGTCCTTCCAGGAACGGTGGTATGTGAATCTCCACAGCCTAATGGACCG GGCTTTGACC CCACAGTGTGGCAGTGGGGAAGACCTATATATCCTCACAGGCACAGTGCCCTCA GACTACAGAG TTAAAGACAAAGTGGCAGTCCCTGAGTTTGTTTGGCTGGCAGCCTGTTGTGCTGT CCCTGGAGGA GGCTGGGCCATGGGCTTTGTCAAGCACACCCGGGACAGTGACATCATAGAAGAT GTGATGGTAA AAGATCTTCAGAAACTGCTTCCATTTAACCCTCAGCTGTTTCAGAACAACTGTGGT GAAACTGAGC AAGACACAGAGAAAATGAAAAAAATCCTGGAAGTGGTTAACCAAATCCAGGATG AAGAACGAAT GGTACAATCTCAAAAGAGTTCTAGTCCCCTTTCTAGCACCAGGAGCAAGAGGTCT ACTCTGTTGC CTCCAGAGGCATCTGAGGGAAGTAGTAGCTTTTTGGGAAAACTCATGGGCTTCA TTGCTACCCCA TTCATCAAGCTTTTTCAATTAATTTATTACCTTGTGGTAGCAATCCTGAAGAACATT GTCTATTTCCT GTGGTGTGTTACCAAGCAGGTGATTAATGGCATAGAAAGTTGCCTTTACCGCCTG GGCTCAGCCA CCATCTCATACTTCATGGCCATTGGGGAAGAGTTGGTGAGCATTCCCTGGAAGGT GCTCAAGGTC GTGGCCAAAGTCATCAGGGCTCTCCTCCGGATCCTTTGTTGTCTGCTGAAGGCCA TTTGCCGAGTT CTGAGCATCCCTGTCCGTGTCCTTGTGGATGTGGCCACTTTCCCTGTGTACACCAT GGGCGCTATT CCAATTGTTTGCAAGGACATTGCACTGGGCCTTGGTGGCACTGTCTCACTGCTCT TTGACACTGCT TTTGGTACCCTGGGTGGCCTATTTCAGGTGGTTTTTAGTGTCTGCAAGCGGATTG GCTACAAGGT TACTTTTGACAATTCTGGGGAGTTATAAACTCAAAAAACTAATAGTATCCAGTCA CAGTGAATTTG AAAGCTGGAATAGTTTGTCTTTACAATGGGTTTCTGTTCACTGTCAGTTATCATTA TATTTTGGCCT TTGGTGGGGATGTCTGCTTGTTTTTGCAAAAGAAGATGGCAGAATTTAGACTTGA CAGAGGAGA AATGCTCAGGGTGAGATTAGGTGTAGTAATCTGCTGTTTACCTCCAGTTATATGT GCAAACTCCCA AGCCACTAATAACTTCAGTTATGCACTCTAACACAGACGACCACCTGAAATGCAC TGGTATTTATT TCTGATAATTAAAAATTACAGGGGAGGGAAGAACTAGAAAAAGAACAACTTTAG ACCAAAGGTG TCTGAGAAAAGGAGAAAGGGAGCTTGTTCTTCCCATTGCTCTTTGTGATTTAAGG CAAAACAGAT TAAAAAAAAAATCTGCAGC 953 ENTPD1 HSX2_00825916 190 TTTGCTCCAAGAATATCCTAGCCATCCTTGGCTTCTCCTCTATCATAGCTGTGATA GCTTTGCTTGC TGTGGGGTTGACCCAGAACAAAGCATTGCCAGAAAACGTTAAG 953 ENTPD1 HSX2_00825924 191 TGCCAGAAAACGTTAAGTATGGGATTGTGCTGGA 953 ENTPD1 HSX2_00825926 192 GTCCTGGAATCTCAAAATTTGTTCAGAAAGTAAATGAAATAGGCATTTACCTGAC TGATTGCATGG AAAGAGCTAGGGAAGTGATTCCAAGGTCCCAGCACCAAGAGACACCCGTTTACC TGGGAGCCAC GGCAGGCATGCGGTTG 953 ENTPD1 HSX2_00825931 193 AGAATGCAGGGTTAAAGGTCCTGGAATCTCAAAA 953 ENTPD1 HSX2_00825934 194 GGTGCCAGGATCATTACTGGCCAAGAGGAAGGTGCCTATGGCTGGATTACTATC AACTATCTGCT GGGCAAATTCAGTCAG 953 ENTPD1 HSX2_00825945 195 GTTGCAAGTAATGAAATTCTCAGGGACCCATGCTTTCATCCTGGATATAAGAAGG TAGTGAACGT AAGTGACCTTTACAAGACCCCCTGCACCAAGAGATTTGAGATGACTCTTCCATTCC AG 953 ENTPD1 HSX2_00825947 196 TTTGAAATCCAGGGTATTGGAAACTATCAACAATGCCATCAAAGCATCCTGGAGC TCTTCAACACC AGTTACTGCCCTTACTCCCAGTGTGCCTTCAATGGGATTTTCTTGCCACCACTCCA GGGGGATTTT GGG 953 ENTPD1 HSX2_00825952 197 TGGCCAAGGACATTCAGGTTGCAAGTAATGAAAT 953 ENTPD1 HSX2_00825954 198 GCATTTTCAGCTTTTTACTTTGTGATGAAGTTTTTAAACTTGACATCAGAGAAAGT CTCTCAGGAA AAGGTGACTGAGATGATGAAAAAGTTCTGTGCTCAGCCTTGGGAGGAG 953 ENTPD1 HSX2_00825959 199 ATAAAAACATCTTACGCTGGAGTAAAGGAGAAGTACCTGAGTGAATACTGCTTTT CTGGTACCTA CATTCTCTCCCTCCTTCTGCAAGGCTATCATTTCACAGCTGATTCCTGGGAGCACA TCCATTTCATT GGCAAG 953 ENTPD1 HSX2_00825964 200 ATCCAGGGCAGCGACGCCGGCTGGACTTTGGGCTACATGCTGAACCTGACCAAC ATGATCCCAG CTGAGCAACCATTGTCCACACCTCTCTCCCACTCCACCTATGTCTTCCTCATGGTTC TATTCTCCCT GGTCCTTTTCACAGTGGCCATCATAGGCTTGCTTATCTTTCACAAGCCTTCATATTT CTGGAAAGAT ATGGTATAGCAAAAGCAGCTGAAATATGCTGGCTGGAGTGAGGAAAAAAATCGT CCAGGGAGCA TTTTCCTCCATCGCAGTGTTCAAGGCCATCCTTCCCTGTCTGCCAGGGCCAGTCTT GACGAGTGTG AAGCTTCCTTGGCTTTTACTGAAGCCTTTCTTTTGGAGGTATTCAATATCCTTTGCC TCAAGGACTT CGGCAGATACTGTCTCTTTCATGAGTTTTTCCCAGCTACACCTTTCTCCTTTGTACT TTGTGCTTGTA TAGGTTTTAAAGACCTGACACCTTTCATAATCTTTGCTTTATAAAAGAACAATATT GA 953 ENTPD1 HSX2_00825979 201 TATGGAAGATACAAAGGAGTCTAACGTGAAGACA 953 ENTPD1 HSX2_02495027 202 AGTCTAACGTGAAGACATTTTGCTCCAAGAATATCCTAGCCATCCTTGGCTTCTCC TCTATCATAGC TGTGATAGCTTTGCTTGCTGTGGGGTTGACCCAGAACAAAGCATTGCCAGAAAA CGTTAAG 953 ENTPD1 HSX2_02495030 203 GTCCTGGAATCTCAAAATTTGTTCAGAAAGTAAATGAAATAGGCATTTACCTGAC TGATTGCATGG AAAGAGCTAGGGAAGTGATTCCAAGGTCCCAGCACCAAGAGACACCCGTTTACC TGGGAGCCAC GGCAGGCATGCGGTTGCTCAG 953 ENTPD1 HSX2_02495034 204 CAGTTTGAAATCCAGGGTATTGGAAACTATCAACAATGCCATCAAAGCATCCTGG AGCTCTTCAA CACCAGTTACTGCCCTTACTCCCAGTGTGCCTTCAATGGGATTTTCTTGCCACCAC TCCAGGGGGA TTTTGGG 954 ENTPD2 HSX2_00826105 205 GCCGCGGACACTGCAGTGGGCTGGGCGCTCGGCTACATGCTGAACCTGACCAAC CTGATCCCCG CCGACCCGCCGGGGCTGCGCAAGGGCACAGACTTCAGCTCCTGGGTCGTCCTCC TGCTGCTCTTC GCCTCCGCGCTCCTGGCTGCGCTTGTCCTGCTGCTGCGTCAGGTGCACTCCGCCA AGCTGCCAAG CACCATTTAGGGGCCGACGGGGGCAGCTGCCCCATCCCTCCCCCAACCCCTGTAT CCCCACCCCG TACTCCCACCCCTCCCACAACCCCTGTACCTCCCACCCCTGTATCCCCACCCCTCCA CCCACCCCTC TCCCAACCTCTCTCCCCGCCCCTGTATCCTGCATTCCTCCACCCACCCTCTATCCCC CACCGCTCCA CCCCACCACTGTCTTCTCCATCCTTCCACCCCACCCTCAGCGTCTCTGCCCCTAAGG CAGCCCAGG AAATAGGAACTGAGACTCTGGTACCCACAGGAGCCTGGGTGGGCAAAGAGCGC TCAATCCAGCT CCTTGAACCCCTCCAGCCCGCTTCAGCCTGGGCATCACTGCAGGCCCCGTGCTCC TCCTCCTCCTC CTCAGGGCTGGGTCTCCAGAGAGTGGGGCCTTGGTCCTGAGAATCAGCCCTTAG AGGCTCCTTCT GTGTAGTCTGGGTCTGTACTGGGGAGGGTCACAGCCCACGGGCTGGCAGCCAG CCCAGCACCTA CTTGTAAAAATTTTGTAATAAAAAGTTTTTCCTAGAGACGTG 956 ENTPD3 HSX2_00826288 206 AAGAACCTGTGGCACATGTGGGTGCACCCGCATGGAGTGGAAACCACGGGTGC CCTGGACTTAG GTGGTGCCTCCACCCAAATATCCTTCGTGGCAGGAGAGAAGATGGATCTGAACA CCAGCGACAT CATGCAGGTGTCCCTGTATGGCTACGTATACACGCTCTACACACACAGCTTCCAG TGCTATGGCC GGAATGAGGCTGAGAAGAAGTTTCTGGCAATGCTCCTGCAG 956 ENTPD3 HSX2_00826298 207 GCTTTTGCAGGATTCTACTACACAGCCAGTGCTTTAAATCTTTCAGGTAGCTTTTC CCTGGACACCT TCAACTCCAGCACCTGGAATTTCTGCTCACAGAATTGGAGTCAG 79852 EPHX3 HSX2_02027236 208 AGCTCGGGCCTGCGTCTGCACTATGTCTCGGCTGGACGAGGTAACGGACCCCTC ATGCTGTTTCT GCACGGCTTCCCTGAGAACTG 2059 EPS8 HSX2_00910337 209 TGGCTACGGATCATCACCTACCTTTTCCCAGACGGACAGAGAACATGGTTCAAAA ACAAGTGCAA AGGCCCTTTATG 2059 EPS8 HSX2_00910352 210 TTGACTACCTTTGTCCTGGATCGGAAAGATGCTATGATCACTGTTGATGATGGAA TAAGGAAATT GAAATTGCTTGATGCCAAGGGCAAAGTGTGGACTCAAGATATGATTCTTCAAGT GGATGACAGA GCTGTGAGCCTGATTGATTTAGAATCAAAG 2059 EPS8 HSX2_00910358 211 AATGAACTGGAGAATTTTCCTTTAAACACAATCCAGCACTGCCAAGCTGTGATGC ATTCATGCAGC TATGATTCAGTTCTTGCACTGGTGTGCAAAGAGCCAACCCAGAACAAGCCAGATC TTCATCTCTTC CAGTGTGATGAGGTTAAG 2059 EPS8 HSX2_00910368 212 GATGATTTCCAATGCAGACCCTAGTATACCGCCTCCACCCAGAGCTCCTGCCCCT GCGCCCCCTG GGACCGTCACCCAGGTGGATGTTAGAAGTCGAGTGGCAGCCTGGTCTGCATGGG CAGCCGACCA AGGGGACT 2059 EPS8 HSX2_00910373 213 TTGAGAAACCAAGGCAGTATCATGAGCAGGAAGAAACACCTGAGATGATGGCA GCCCGCATTGA CAGAGATGTG 2059 EPS8 HSX2_00910388 214 GCCAAACTGAAGTCTCATATTCAGAATCCTAGTGCTGCAGATTTGGTTCACTTTTT GTTTACTCCAT TAAATATG 2059 EPS8 HSX2_00910393 215 GTGGTGCAGGCAACAGGAGGTCCTGAACTAGCCAGTTCAGTACTTAGTCCCCTAT TGAATAAGGA CACAATTGATTTCTTAAATTATACTGTCAATGGTGATGAACGGCAGCTGTGGATG TCATTGGGAG GAACTTGGATGAAAGCCAG 2059 EPS8 HSX2_00910398 216 AGCAGAGTGGCCAAAAGAACAGTTTATTCCACCATATGTTCCACGATTCCGCAAT GGCTGGGAGC CCCCAATGCTGAACTTTATGGGAGCCACAATGGAACAAGATCTTTATCAACTGGC AGAATCTGTG GCAAATGTAGCAGAACATCAGCGCAAACAGGAAATAAAAAGATTATCCACAGAG 2059 EPS8 HSX2_00910403 217 CATTCCAGTGTATCAGAGTATCATCCAGCCGATGGCTATGCGTTCAGTAGCAACA TTTACACAAG AGGATCCCACCTGGACCAAGGGGAAGCTGCTGTTGCTTTTAAGCCAACTTCTAAT CGCCATATAG ATAG 2059 EPS8 HSX2_00910408 218 AAATTATGAACCACTCAAAACACAACCCAAGAAATATGCCAAATCCAAGTATGAC TTTGTAGCAA GGAACAACAGTGAGCTCTCGGTTCTAAAGGATGATATTTTAGAG 2059 EPS8 HSX2_00910413 219 ATACTTGATGATCGGAAGCAATGGTGGAAAGTTCGAAATGCAAGTGGAGACTCT GGATTTGTGC CAAATAACATTTTGGATATTGTGAGACCTCCAGAATCTGGATTGGGGCGTGCTGA TCCACCTTATA CTCATACTATACAG 2059 EPS8 HSX2_00910418 220 AAACAAAGGATGGAGTATGGCCCAAGACCAGCTGATACTCCCCCTGCTCCATCAC CTCCTCCAAC ACCAGCTCCTGTTCCTGTTCCCCTTCCCCCTTCCACTCCAGCACCTGTTCCTGTGTC AAAGGTCCCA GCAAATATAACACGTCAAAACAGCAGCTCCAGTGACAGTGGTGGCAGTATCGTG CGAGACAGCC AGAGACACAAACAACTTCCGGTGGACC 2059 EPS8 HSX2_00910423 221 GAAGGAAATCTCAGATGGAGGAAGTGCAAGATGAACTCATCCACAGACTGACCA TTGGTCGGAG TGCCGCTCAGAAGAAATTCCATGTGCCACGGCAGAACGTGCCAGTTATCAATATC ACTTACGACT CCACACCAGAGGATGTGAAGACGTGGTTACAGTCAAAGGGATTCAACCCTGT 2059 EPS8 HSX2_00910433 222 CCCATGCAAACCTGAGTGAGCACAGGATTTGCTTCTAGGCCCATTATTTTTATTAA AACTGAAAAA ATTTAAACTGAATTTTTTGACCTTGGAAAATATTTTTCTTACTTTACCAAGGTGAA GTTTCCTTAATT AGACTAATTATTTTATCCCCATCCCAGGGTATAAACAGGAATTGTTTTGATAGTG GTGGAGTTATT CACTGCAACAAAGCAACAATGTTGTCCATGATTCAAAATCTAAGCAGTTTCGATTT TGCCTGTGAA TATGGTGTCTGTCATTCAGGGCATAGCTCACTGTAGGCTAGCCTCTGCTTACTTAA GTCTCTTCTCT GACATACTCAATGGAAGAATATTTAGATTTATTTAAAGTTCTTAATGCCAACAGTT TAAAAAAAAA TTAAAACATTTGAATGAACTGTAAAGTACAGCCATACCTTGGACATGCAAATATA AATCTATGGAG CATTCTCAAGAGAGTTTGTCATGGCTCTGTTGATTGCAACTCCTTGTATAGCTTGT ATTTTGATTTA GTTTATATTCTGCTTATTATGTATACTGTGTTCTTATATATGAGAAAGCACAAATG CGAAAGAGGT CATGTCTTCTCAAAATCTAGCAAAGGAAGTAGTCTGCATTGGTGTGCATTACAGT ATTTTGCTTAA TGAAAGCCTCAGTTCTGAATGTTGATATGAGTAGTTAAAAGGAAGTGGGGCCAT TTTATGTGTTT ATCTGTGTCAAGTATTTCTGGTAATAAGAAGCACTTAATTTACACATATTTTAATC CTGTGAAAGAT TCCACATAGAGAAAAGAAAGATACCTAACCTTCAACAAATGTTATTTTTGGAAAC ACAATTTTTGT CATTAAATGTTATATTATTTCACATATATAAAACAGATGTTATGTAAGAATGTTGT ATATTTTAACA TAAATCATTTAGAGAAATTATCTAGATTCATTAATTTTCATAGTGCCTTTTTCACAT GAGTCAGCTG GAAAGTCTGCAATAAACAGTATTTGCTGTCTGTTAAGATAGCAGTGGCAGCTCCG AGTTACAAGA AATTATGAGAAGACGACAGGAAAAAATCAGTGCTGCCGCTAGTGATTCAGGAGT GGAATCTTTT GATGAAGGAAGCAGTCACTAATTTGTTTGTTTGTATTTAAACTCCATTGTTTTTGG CATTATTCCAA CATGCTTTGTTTTAAGAAGCCTTGAAGGGAATGTCAGATTCATTTTTCTTGATGTA ATTTATCACCA TAAAAAAAAA 2059 EPS8 HSX2_02499999 223 CACTTGACTACCTTTGTCCTGGATCGGAAAGATGCTATGATCACTGTTGATGATG GAATAAGGAA ATTGAAATTGCTTGATGCCAAGGGCAAAGTGTGGACTCAAGATATGATTCTTCAA GTGGATGACA GAGCTGTGAGCCTGATTGATTTAGAATCAAAG 2065 ERBB3 HSX2_00910994 224 AGATACACACCTCAAAGGTACTCCCTCCTCCCGG 7224 TRPC5 HSX2_01280361 225 TTTGTTGCTCAGCCCAACTGCCAACAGTTGCTTGCCACCCTGTGGTATGATGGCTT CCCTGGATGG CGGCGGAAACACTGGGTAGTCAAGCTTCTAACCTGCATGACCATTGGGTTCCTGT TTCCCATGCT GTCTATAGCCTACCTGATCTCACCCAGGAGCAACCTTGGGCTGTTCATCAAGAAA CCCTTTATCAA GTTTATCTGCCACACAGCATCCTATTTGACCTTCCTCTTTATGCTTCTCCTGGCTTC TCAGCACATTG TCAGGACAGACCTTCATGTACAGGGGCCTCCCCCAACTGTCGTGGAATGGATGA TATTGCCTTGG GTTCTAG 7224 TRPC5 HSX2_01280366 226 GTTTCATTTGGGGTGAGATTAAGGAAATGTGGGATGGTGGATTTACTGAATACA TCCATGACTGG TGGAACCTGATGGATTTTGCAATGAACTCCCTCTACCTGGCAACTATTTCCCTGAA GATTGTGGCC TATGTCAAG 7224 TRPC5 HSX2_01280397 227 TGACCATCCTCAGAATCTCATGCCATTTTCCCGCAGAGCTGAGGGATGTGGTCAG CAGTCCCCAC CAGCTATCAGATAAGGCAAACTACCCTGCCCATCTTTGTTGCCATTCAGTGCTACG CGCTGCCCAT GCTGGGTCAATGAACAGCATCAAAGGGAGGCTGAAGAGATTTCAAAGAATTGTC AGCTTGTGGT TTCTGGGTATAAGTGGCTTGTTTCGTTCTTAAATACTACAACTTCTTATTGTGGGG GCTATTGAGTT TTCTTGTTTCTTAAAGATGTGTTAGTTTCCTAATGTGTGCCAATGAAATATTTACCC CATAGTATAT GTCATATCTAATAAGTTAGGCGAATTATTTTTCTGTTTGTGTGTTTCAGTTAACTTA CTACATTTGA AAATTTGATAGTATCAAAATTAGTATTTAGAATTTGTGCTATTTTTTAAAAACATC TACTACACTCT AACCAATAGTCACTACATCTCATACATTGGCAAGATAAATAGTTGTCATATTTGTT GGGTCCTATTC TACTGTTGATAGTTTTAATTATCATTGCTATCAAATAATTTCTAAGATAAAAGCCT GAATTTGAAAT ATTTTTATCAGAAAAATGGCATATTGCTGAAGTGTCAAAATATGAGAAAAGAGCA TCTTCATTTTA ATTAACTGCTTTATAAAAATGGCAACTTTAGGTATAGATAACCTAATTCAGGTTGC AGTTTTAATAT TCATTGGGGGCAGTGGAATTGCATGTGTAAATTATGTTAGATATATATCATAACA ACCCTAGTGG ATTCATGGAATTATAAACGTGATCCAAATTCTACTGTCTTCCAAGAAAGCTACATT TATACATCCAA ACAAATTCTTTTCCACAGCTTAAGAGTACCTCATCAGAATACAGTGGTTCAAGTTA AAAAATAAAG TCCATAATGCATATGGTCATCATTCTAGACCTGATAACCACTGAGAACCTGCTGA GCAAGGACGG CTTTTACCAACATTAGCACAAAGGTTTCCTCAGTTTAGACTCTAACATATGACCTG AAACAACTCTA GGTCTGAGTCCTAGAGATTACATAAATAGTGTGTAGCCCAGAAAAGTAAAATAG GTGTCACGCTG TTTTTTTTAATGTCAACACCAATAGGAATCCATTTAGATTAATGTATGTAATTTCTG ATAAAAGTAA GAGAAATGAGGAACTTTCGAACTGCAAATATGCCTCCAAACTAGCTTTTGATAAG TGTGGTTTCT GTTATTTGAATGGATTCCCATCTTTGTCTCTAGCCTGGAGAAGAGCAAAATGGAG GGGGAGGGG CCAGAAATAGGAGGAGGTTTTGAAGAATAAAGCCTCATATCCAGGAAAAAGTGA TCAAGTGAAA AAGCTGCATCAAGACCCATTTGGCAAGAGGTTGTCCGAAAATAATTCCTTGATCA TATCTGAAGT GGTTATTTACTCAAATCAATTTCTCCCCTGCTTCGCTAAGACTGTCATAAAATGGC CTTGACATTTA ATCACAGGTTACTTTCCAGAAAGGTTTCTAAAGTTACAGATTCAGCTTTTCAAATT GTCAAATTCAC TTTGAATAATAATAGAACCTGGGCTACATTCCTAACTCATATTAACAGCAC 2115 ETV1 HSX2_00914001 228 ATTTCGCCGCCAGCTTTCTGAACCCTGTAACTCCTTTCCTCCTTTGCCGACGATGCC AAGGGAAGG ACGTCCTATGTACCAACGCCAGATGTCTGAGCCAAACATCCCCTTCCCACCACAA GGCTTTAAGCA GGAGTACCACGACCCAGTGTATGAACACAACACCATGGTTGGCAGTGCGGCCAG CCAAAGCTTT CCCCCTCCTCTGATGATTAAACAGGAACCCAGAGATTTTGCATATGACTCAG 2119 ETV5 2119.005.1-D 229 TCAGTCAACTTCAAGAGGCTTGGTTAGC 2119 ETV5 HSX2_00914314 230 GGTGCGCGGAGCGGTTCACCGTCTTCGGAGCGGTTCGGCCCAGCCTTTCGCCCA GGCGCCCAGG CCCGCTGCGCGCGTGCGTGAGCGCGCCTGCGCCGCCGGGGCCGCTGCAAGGGG AGGAGAGAG GCCGCCTCAG 2119 ETV5 HSX2_00914317 231 GAGGATCCCTTTTCCCCCAGAAATTACTCAATGCTGAAACCTCTCAAAGTGGTATT AGAGACGCTG AAAGCACCATGGACGGGTTTTATGATCAGCAAGTCCCTTTTATGGTCCCAGGG 2119 ETV5 HSX2_00914321 232 AAATCTCGATCTGAGGAATGCAGAGGGCGGCCTGTGATTGACAGAAAGAGGAA GTTTTTGGACACAGATCTGGCTCACGATTCTGAAG 2119 ETV5 HSX2_00914326 233 AGCTATTTCAGGATCTCAGTCAACTTCAAGAGGCTTGGTTAGCTGAAG 2119 ETV5 HSX2_00914331 234 CACAAGTTCCTGATGATGAACAGTTTGTCCCAGATTTTCAGTCTGATAACC 2119 ETV5 HSX2_00914336 235 TGGTGCTTCATGCCCCACCTCCAACCAAGATCAAACGGGAGCTGCACAGCCCCTC CTCTGAGCTG TCGTCTTGTAGCCATGAGCAGGCTCTTGGTGCTAACTATGGAGAAAAGTGCCTCT ACAACTATTG 2119 ETV5 HSX2_00914372 236 AAAAACGAAAAACAAAAAACAAAAACAAACCTTTTGGTAACTGTGCACTGTGTCC TTTAGCCAGG GCCGTGCCAACTTATGAAGACACTGCAGCTTGAGAGGGGCTTTGCTGAGGCTTC CCCTTGGCCAT GTGAAAGCCCGCCTTGTTGCCTGCTTTGTGCTTTCTGCACCAGACAACCTGATGG AACATTTGCAC CTGAGTTGTACATTTTTGAAGTGTGCAGGGCAGCCTGGACACAAGCTTAGATTCT CTATGTATAGT TCCCCGTGTTCACTAACATGCCCTCTCTGGAAAGCATATGTATATAACATGTGTCA TGTCCTTTGG AAACCTGGTCACCTGGTGAAAACCCTTGGGATTCTTCCCTGGGCATGACTGATGA CAATTTCCATT TCATCAGTTTGTTTTGTTTTCCTTTTTCTTTAAATCTTGGACTTTAAACCCTACCTGT GTGATTCAGT AGGGTTTGAGACTTACGTGTGATACTGACAGGTAAGCAACAGTGCTAGCATTCT AGATTCCTGCC TTTTTTTAAAAAGAAATTATTCTCATTGCTGTATTATATTGGAAAAGTTTTAAACA ACCAAGCTAAA GCTATGTGAAAGTTGAGCTCAAAGTAGAGGAAAAGTTACTGGTGGTACCTTGCT GCCTGCTCTGC TGGTAGAATTCTGTGCTCCCCGTGACACTTAGTACATTAAGAATGACTACACTGTT CCTCGTATGT GAAGGAGGCAGTGCTGACTCCGTGAGTGTGAGACACGTGCTTTGAACTGCTTTT CTATTCATGGA GCACTCCATAGTCTCAAACTGTCCCCCTTATGACCAACAGCACATTTGTGAAGAG GTTCGCAGGG ATAAGGGGTGCACTTTATAGCTATGGAAACATGAGATTCTCCTCTATTGGAAGCT AATTAGCCCAC AAAGGTGGTAAACCTGTAGATTGGGCCTTAATTAGCATTGTACTCTAATCAAAGG ACTCTTTCTAA ACCATATTTATAGCTTTCTTAACCTACACATAGTCTATACATAGATGCATATTTTAC CCCCAGCTGG CTAGAGATTTATTTGTTGTAAATGCTGTATAGATTTGGTTTTCCTTTCTTTACTTAC CCTGGTTTGGA TTTTTTTTTTTTTTCTTTTGAATGGATTTATGCTGTCTTAGCAATATGACAATAATCC TCTGTAGCTT GAGCTACCCCTCCCCTGCTGTAACTTACGTGACCTGTGCTGTCACTGGGCATAGG ACAGCGGCAT CACGGTTGCATTCCCATTGGACTCATGCACCTCCCGGATGGTTTTTGTTTTTTTCG GGGGTTCTTTG GGGTTTGTTTGTTTGCTTCTTTTCCAGAGTGTGGAAAGTCTACAGTGCAGAAAGG CTTGAACCTGC CAGCTGATTTGAAATACTTTCCCCTGCGCAGGGCCGTATGCATCCTGCCAAGCTG CGTTATATTCT GTACTGTGTACAATAAAGAAGTTTGCTTTTCGTTTACCAA 2167 FABP4 HSX2_02500430 237 GAATGCGTCATGAAAGGCGTCACTTCCACGAGAGTTTATGAGAGAGCATAAGCC AAGGGACGTT GACCTGGACTGAAGTTCGCATTGAACTCTACAACATTCTGTGGGATATATTGTTC AAAAAGATATT GTTGTTTTCCATGATTTAGCAAGCAACTAATTTTCTCCCAAGCTGATTTTATTCAAT ATGGTTACGT TGGTTAAATAAACTTTTTTTAGATT 25987 TSKU HSX2_02546256 238 ATGCTTCCCCGGGTGCCAATGCGAGGTGGAGACCTTCGGCCTTTTCGACAGCTTC AGCCTGACTC GGGTGGATTGTAGCGGCCTGGGCCCCCACATCATGCCGGTGCCCATCCCTCTGG ACACAGCCCA CTTGGACCTGTCCTCCAACCGGCTGGAGATGGTGAATGAGTCGGTGTTGGCGGG GCCGGGCTAC ACGACGTTGGCTGGCCTGGATCTCAGCCACAACCTGCTCACCAGCATCTCACCCA CTGCCTTCTCC CGCCTTCGCTACCTGGAGTCGCTTGACCTCAGCCACAATGGCCTGACAGCCCTGC CAGCCGAGAG CTTCACCAGCTCACCCCTGAGCGACGTGAACCTTAGCCACAACCAGCTCCGGGAG GTCTCAGTGT CTGCCTTCACGACGCACAGTCAGGGCCGGGCACTACACGTGGACCTCTCCCACAA CCTCATTCAC CGCCTCGTGCCCCACCCCACGAGGGCCGGCCTGCCTGCGCCCACCATTCAGAGCC TGAACCTGG CCTGGAACCGGCTCCATGCCGTGCCCAACCTCCGAGACTTGCCCCTGCGCTACCT GAGCCTGGAT GGGAACCCTCTAGCTGTCATTGGTCCGGGTGCCTTCGCGGGGCTGGGAGGCCTT ACACACCTGT CTCTGGCCAGCCTGCAGAGGCTCCCTGAGCTGGCGCCCAGTGGCTTCCGTGAGCT ACCGGGCCT GCAGGTCCTGGACCTGTCGGGCAACCCCAAGCTTAACTGGGCAGGAGCTGAGGT GTTTTCAGGC CTGAGCTCCCTGCAGGAGCTGGACCTTTCGGGCACCAACCTGGTGCCCCTGCCTG AGGCGCTGCT CCTCCACCTCCCGGCACTGCAGAGCGTCAGCGTGGGCCAGGATGTGCGGTGCCG GCGCCTGGTG CGGGAGGGCACCTACCCCCGGAGGCCTGGCTCCAGCCCCAAGGTGGCCCTGCAC TGCGTAGACA CCCGGGATTCTGCTGCCAGGGGCCCCACCATCTTGTGACAAATGGTGTGGCCCA GGGCCACATA ACAGACTGCTGTCCTGGGCTGCCTCAGGTCCCGAGTAACTTATGTTCAATGTGCC AACACCAGTG GGGAGCCCGCAGGCCTATGTGGCAGCGTCACCACAGGAGTTGTGGGCCTAGGA GAGGCTTTGG ACCTGGGAGCCACACCTAGGAGCAAAGTCTCACCCCTTTGTCTACGTTGCTTCCCC AAACCATGA GCAGAGGGACTTCGATGCCAAACCAGACTCGGGTCCCCTCCTGCTTCCCTTCCCC ACTTATCCCCC AAGTGCCTTCCCTCATGCCTGGGCCGGCCTGACCCGCAATGGGCAGAGGGTGGG TGGGACCCCC TGCTGCAGGGCAGAGTTCAGGTCCACTGGGCTGAGTGTCCCCTTGGGCCCATGG CCCAGTCACT CAGGGGCGAGTTTCTTTTCTAACATAGCCCTTTCTTTGCCATGAGGCCATGAGGC CCGCTTCATCC TTTTCTATTTCCCTAGAACCTTAATGGTAGAAGGAATTGCAAAGAATCAAGTCCAC CCTTCTCATG TGACAGATGGGGAAACTGAGGCCTTGAGAAGGAAAAAGGCTAATCTAAGTTCCT GCGGGCAGTG GCATGACTGGAGCACAGCCTCCTGCCTCCCAGCCCGGACCCAATGCACTTTCTTG TCTCCTCTAAT AAGCCCCACCCTCCCCGCCTGGGCTCCCCTTGCTGCCCTTGCCTGTTCCCCATTAG CACAGGAGTA GCAGCAGCAGGACAGGCAAGAGCCTCACAAGTGGGACTCTGGGCCTCTGACCA GCTGTGCGGC ATGGGCTAAGTCACTCTGCCCTTCGGAGCCTCTGGAAGCTTAGGGCACATTGGTT CCAGCCTAGC CAGTTTCTCACCCTGGGTTGGGGTCCCCCAGCATCCAGACTGGAAACCTACCCAT TTTCCCCTGAG CATCCTCTAGATGCTGCCCCAAGGAGTTGCTGCAGTTCTGGAGCCTCATCTGGCT GGGATCTCCA AGGGGCCTCCTGGATTCAGTCCCCACTGGCCCTGAGCACGACAGCCCTTCTTACC CTCCCAGGAA TGCCGTGAAAGGAGACAAGGTCTGCCCGACCCATGTCTATGCTCTACCCCCAGG GTAGCATCTCA GCTTCCGAACCCTGGGCTGTTTCCTTAGTCTTCATTTTATAAAAGTTGTTGCCTTTT TAACGGAGTG 27112 FAM155B HSX2_01700655 239 GCTGTCTACAAGGCCTGGCTGTGCTCAGAATACTTCAGCGTGACCCAGCAGGAAT GCCAGCGCT GGGTGCCCTGCAAGCAATACTGCCTGGAGGTGCAGACCCGGTGCCCCTTTATACT CCCCGACAAT GAGGAAATGGTGTACGGAGGGCTCCCTGGCTTTATCTGTACAG 27112 FAM155B HSX2_01700664 240 GAGGCGAAGAAGAAGAAGTTCAAGGAGTCTGAGGCCCCCAAAACCCACCAGCA GCAATTCCACC ACTCCTATTTCCACCACTACCACCAACAGTACCATCACTACCACCCCCATCATGATC CCCCAGGCC GTGTCAGCAACAAGCCCGCCCTGCTGCCGGTCTCTGGGGGCTCCCGCCTCAGCCC TAGCAGGAT CCGGCTCTGCGTCCTTGTTCTCATGCTCCTCCATACCGTGGTGTCCTTCTCCAGCA ACCAGGGTGG TGGGGGATTGGGGCTGGAGACACTGCCTGCCCTAGAGGAGGGCCTGACACGGG AAGAGTGACA GTAGGGAGGGAGGACAGACCTCCACCACACTGACATCAGCTCCAGCTCCCCCAG GTTGGGGGG GAGGGGGCTCCTCCCATGGGAGGTGTAGGATAAGGTGGGGGCGGGGGAAATG GGGGAATGAC ACATCCCCCCCAACCTACCCCCACCCCAAAAGCAGCTCCAACAGAATGGCCAGAG GGCCTCAGG GAGCTGCAAAACTCATCCAGGAGAAAAAGGCAGGAGCAGCAAGTGACCCCTCCC AAGCTCCCAT CTATGGGGCTTAGCAAAAAAAGGGAGGAAGTGGGGGCTGGATATGCCCACCCC TGCCAAAAGC CCTGACCCCAGGGAAGGAGGCTGCTCACCCAGCCTTGGCCCTGCAGGGAATGTT GGGGGGCAC AGAGGGGAGAAGCTCTTTCCCCCACTCCACATTCCTTTTGTTGCCAAGATCCTTAA TTCCCTCCTG CCCATATCCCTACAGGCGACGGCAGACAGTGCAATGGCCCTCCTGCCACTTCAGC ACACCTTGCC CCACCTGGGACCATCACACGTGAAGCACCAGGCTGGGAGATGAGGTGCACACAG TTGCAGCTAG GTCGGGGCCCCAGTTAAGCTGTGCCCCACCACCCTAGGCAATGAGGGGCAGGAA AGGGGTACA GAATGAATGGTGAAAGAGAGTGGAGATACGGAAGGGGGAGAGGAGAGGAGAA ATGTGGACAG AGGGCTTGAAGACATGGCCGAATAGGCTACTGCCACCCGGCTTTGGGGAGATGG GCGATAAGT GTTGAGGTAGGCTCGAGAACTGCTCCCCAAATCAGTGAGAATTGCATTAGGAGC CCTCTGGGGA AAGAGCACAGGAACTGAGTTGCTGGGCCTCAAAACAAAAGGCTGCAGGCACATG GTTAGACTGC CGCTGTCTGAAGGACCATATCTTACAGAAGGTGCACATACTCCCAAGGGCCACTC TTGCCCTGGA GATCTTGGCCTTGGGGCCAAAGACATTTCCATTTCCGATCTCCATGGGGAGGAGG GACTTAAGCC CAAGTGGGTCAGGCCTGGCCCAGGTCCTTATACTCCCCTATCTTGTCCTAGCCCAG GCCTCCATGA AGGAGAACCTGGTGGCATTGCCCCAGAGCTCTCCAGAGATGAGCCTCCCCTATCC CCACCCTGTC CCCGTCCCCAGCCTACCAAAGAGTATTCACACCTTTCCATCCCTGACTCTATGGGT TACTGTCCCA ATTGCGAAACACCCATACTCCTCTTCACCCTGTAGCAGGGTCTTCTGCTCCAGTCA CCCCGGCCTC TTGCAAGAGAAAGTCCAGGGACTGGCAAGAAGACCCTTTGACTAAAGATAATGT GCTGTCATATC TTGGCTGAGAAACTGTTGAGTCAGGCTAGAGGACTGGACAAGAGAAGAGGCAT TGAGAGCCCC CTTGGGAGCCATTAGCCTTGCTCTGGTCTGCTGTGTGGGGTTGGGGAGTAGGGG GGATCCCACA TTGCCTGGGACATCTGAATGCTGATACGAATGGACAGGAAAGGGAGCCAGAGCT GTATACCTGG GACAGGCCAGGGAGCCTTTAGTGCCAGCAGGGCCTGTGTCCTGGGATGTGATGC TAGTGAGTGA ATGGGAGGGCGGGCCTGGAGCTGCGTGAGAGTGAAACCAAGAAGCGGATGGG GAAGGGAGAG CTGGCCTTGGTCAGCTTAGGGATGAATGGAGAAGGAATCATTCATGGGCCTCGG CTAGGTCCCA GACTGATTACATGAGACTGGGGAGTCCTTCCCTGCCAGTTTTCTCATTTATTACAG CCTATCCCCC AACCCTACCCCTGTGCCCTGCCTACACACTCCCGTTTGGCCCTCAGCACTTTGGGC CTGGTCACAT 165215 FAM171B HSX2_02270148 241 GTGCTTGGGTAAATCATGGTCGGGGAATGGTCAAGGAACATAACAATCATTTAA TCTGGACATAT GATGCACCACATTTGGGGTACTGGATAGCAGCTCCACTTCCAGGAACTAGAG 57184 FAM219B HSX2_01914824 242 GTGAGCTTTGAATGGGCATAGACAGGGTTCCCAGCCCAATAGTCGGGATTGGGG TATAGGTTCT ACATGGGAAAGTATCCAGTCTCTTGCTTTACTCAGTGTCCTGTGACCACCAGAGG CATGAGAGGG ACAACACACTCTTTTCGCTCTACCACAAGGGGTGACTAGAAGATGAGCAAGTCTA ATAAAAAGAT ACGGCCTTA 284418 FAM71E2 HSX2_02337017 243 TGGCAGGGCCATGGCGGAGGCCCGAGTCTCCCAGCCTGGGGCATCTCCACGCTC TGTAACGCTG AGCTCCAGGCACCCGTGAAGCCCCACGGGTCAAGGCTGGTGGGCCGGGGCTGG GAGGCCTGCA CGCCTGGGTTCTGGGTCCCTAAACCAGTACCCATCCACCACAGCCACCATGATCT GGCTTCGAAA CAGGAGGTGCCTTGAGCCGCTCCAGGGCACCCCGAAGTGGGTCCCTGTTCTGGG GGAGCTGCAA AAGACCCTCCAGAAGG 26224 FBXL3 HSX2_02546986 244 GATGAAACGAGGAGGAAGAGATAGTGACCGTAATTCATCAGAAGAAGGAACTG CAGAGAAATC CAAGAAACTGAGGACTACAAATGAGCATTCTCAGACTTGTGATTGGGGTAATCTC CTTCAGGACA TTATTCTCCAAGTATTTAAATATTTGCCTCTTCTTGACCGGGCTCATGCTTCACAAG TTTGCCGCAA CTGGAACCAGGTATTTCACATGCCTGACTTGTGGAGATGTTTTGAATTTGAACTG AATCAGCCAG CTACATCTTATTTGAAAGCTACCCATCCAGAGCTGATCAAACAGATTATTAAAAGA CATTCAAACC ATCTACAATATGTCAGCTTCAAG 26234 FBXL5 HSX2_01687167 245 AATGAATATGAACAGTTAAATTATGCAAAACAACTGAAAGAGAGATTGGAGGCT TTTACAAGAGA TTTTCTTCCTCACATGAAAGAGGAAGAGGAG 93611 FBXO44 HSX2_02575024 246 AATTCCCCAATGACCAGGGTTCGCAGCCAGGCCA 55294 FBXW7 HSX2_01846734 247 CCGGACACACGGGGGCACAGAATCACTGAAGGGGAAAAATACAGAAAATATGG GTTTCTACGGC ACATTAAAAATGATTTTTTACAAA 342184 FMN1 HSX2_02583328 248 ATGGAGAACGTTGATAATTCTCTGGATGGCAGTGATGTGTCAGAACCAGCAAA ACCAGAAGCCG GACTTGAAGTGGCTCAGTCGATCCTGAGTAAGTTCTCTATGAAATCCCTATTTG GGTTTACGAGTA AATTAGAATCTGTGAATCCAGAAGAGGAAGATGCTGTGCTGAAAGCATTCCAT AGTTTAGACGTG AATCCCACATCTCAGCAGGATGATTCCAGCAATGGCTTGGATCCACAGGAAGC AGGGTCTCGGG TTTCACCTGACCTCGGAAATGATGAGAAAATTGCAAGCGTGGAGACAGAATCA GAGGGAAGTCA GAGAAAAGAAGCAGGGACATCTCTCCTTGCTCAAGAGCTGCTTCCACTGTCTA CTTTGAAAGGGA CAAAAGACGATGTCATTTGTGTTCGTGGGACCCTGGTGCACACCACCAGTGAT TCTGACTCTGAT GATGGTGGCCAGGAGCCAGAGGAGGGAAGCAGCACCAATGGCCCAAAGTCC CCTAGTGGTGTT TTATCTGAGCCATCTCAGGAGTCCAAAGAAAACCCAGGAGGTTTCAGGGAAAA TACTGTCACTGG GGAAATGAATGGTGCAGAGCTCTGTGCAGAAGATCCTCAAAGGATTCCACCT GAGATGAGCAGC AAACTGGAAGCTGGCAACGGTGGTCTTCAGACAGAGCGTCGCCCCAGCCAGG ACCAGGTGGGA GAAGAAGGGTCCCAAGACCTACCTGCAGTAACAAACCAGAATTCGAGTGTTG GTATCACTGAGA GTGCCTCTTCTAAAAAAGAAGTCTCTGGAGAGAAGTCATTCCAACTTCCAGCTT TTTTCAGTGGGC TTCGTGTGCTGAAGAAGGGGGCTACCGCTGAGGGAGGAGAGACCATCACGG AAATTAAACCAA AGGATGGGGACTTAGCTTTGCTCAAATTGACGCAGCCTGTGCAGAAGTCCTTA GTGCAGGCAGG GCTGCAGACAGTGAAGAGTGAGAAGAAAGCAACTGATCCGAAGGCCACTCCC ACTCTCCTGGAG CAGCTCTCTCTGCTGCTCAACATTGACATGCCCAAAACTGAACCGAAGGGAGC AGACCCTGAGTC GCCCAGGAGAGAAGAGATGGGCTGCAATGCTGACCAAGAGAGCCAGAGCGG CCCTGGAGTACC ACAAACCCAGGGTGGTGAGGTCAAGCCAAAGTCGCCAGAGACAGCCCTGGAG GCTTTTAAAGCC CTATTCATCCGGCCCCCCAGAAAGGGGACCACAGCTGACACCTCTGAGCTGGA AGCTCTCAAGC GCAAGATGAGACATGAGAAGGAGTCGCTAAGAGCTGTGTTTGAACGGTCCAA TTCTAAGCCAGC GGATGGCCCCTCTGATTCCAAAAGT 257019 FRMD3 HSX2_02319439 249 GCGAGCACCGCGCCGGCCCTGAGCCTCCCGCTCGCTCCCCACGGCCGCGGTGC ATGTTCGCCTC CTGCCACTGTGTGCCGAGAGGCAGGAGGACCATGAAAATGATCCACTTTCGG AGCTCCAGCGTC AAATCGCTCAGCCAGGAGATGAGATGCACCATCCGGCTGCTGGACGACTCGG AGATCTCCTGCC ACATCCAG 257019 FRMD3 HSX2_02319452 250 AGGGAAACCAAAGGGCAGTTTCTCATTGACCACATCTGCAACTACTACAGCCT GCTGGAGAAGG ACTACTTTGGCATTCGCTATGTGGACCCAGAGAAGCAAAGG 257019 FRMD3 HSX2_02319480 251 CTCATCCACCATACACCATGTGCTTTAGAGTGAAATTCTACCCACATGAACCCT TGAAGATTAAAG AAGAGCTCACAAG 257019 FRMD3 HSX2_02319488 252 CTTCAAGCAAATGAAAACTCATCCACCATACACC 257019 FRMD3 HSX2_02319496 253 ATACCTTTTATACCTTCAGATTAAAAGGGACATTTTTCATGGCCGCCTGCTGTG CTCCTTTTCTGAT GCTGCCTACCTGGGTGCCTGTATTGTTCAAG 257019 FRMD3 HSX2_02319512 254 CTGAGCTTGGTGATTACGATCCTGATGAGCATCCTGAGAATTACATCAGTGAG TTTGAGATTTTCC CCAAGCAGTCACAGAAGCTGGAAAGAAAAATAGTGGAAATTCATAAAAATGA ACTCA 257019 FRMD3 HSX2_02319534 255 GGGGCAGAGCCCACCAGTTGCTGAATTTAACTTGCTCCTGAAAGCTCACACTTT GGAAACCTACG GGGTGGATCCTCACCCATGCAAG 257019 FRMD3 HSX2_02319546 256 GATTCAACAGGCACAACAACATTTTTAGGATTCACAGCTGCAGGCTTTGTGGT CTTTCAGGGAAA TAAGAGAATCCATTTGATAAAATG 257019 FRMD3 HSX2_02319551 257 ATCCTCACCCATGCAAGGATTCAACAGGCACAAC 257019 FRMD3 HSX2_02319566 258 AAAAAAGCCATGTTGGCATTCCATACTTCAACACCAGCTGCCTGCAAACATCTT TGGAAGTGTGG AGTGGAAAACCAGGCCTTTTATAA 257019 FRMD3 HSX2_02319579 259 GTATGCAAAATCCAGTCAGATCAAGACTGTATCAAGCAGCAAGATATTTTTTAA AGGAAGTAGAT TTCGATATAG 257019 FRMD3 HSX2_02319588 260 AACCAGGCCTTTTATAAGTATGCAAAATCCAGTC 257019 FRMD3 HSX2_02319595 261 TGGGAAAGTTGCCAAAGAGGTGGTGGAGGCCAGTTCCAAGATCCAGAGGGA GCCTCCTGAGGT GCACAG 257019 FRMD3 HSX2_02319604 262 AGTAGATTTCGATATAGTGGGAAAGTTGCCAAAG 257019 FRMD3 HSX2_02319610 263 AGCCAACATTACTCAGAGCCGCAGTTCCCACTCCTTGAACAAACAGCTCATCAT TAACATGGAACC CCTGCAGCCCCTGCTTCCTTCCCCCAGCGAGCAAGAAGAAGAACTTCCTCTGG GTGAGG 257019 FRMD3 HSX2_02319619 264 CCTCCTGAGGTGCACAGAGCCAACATTACTCAGA 257019 FRMD3 HSX2_02319626 265 GTGTTCCATTGCCTAAAGAGGAGAACATTTCTGCTCCCTTGATCTCCAGCTCCC CAGTGAAGGCA GCCCGGGAGTATGAAGATCCCCCTAGTGAAGAGGAAGATAAAATAAAAGAAG AACCTTTAACCA TCTCTGAACTAGTGTACAACCCAAGTGCCAGCCTGCTCCCCACCCCTGTGGATG ACGATGAGATT GACATGCTCTTTGACTGTCCTTCTAGGCTTGAGTTGGAAAGAGAAGACACAGA TTCATTTGAGGA TCTGGAAGCAGATGAAAACGCCTTTTTGATTGCTGAAGAAGAGGAGCTGAAG GAGGCTCGCCGT GCTTTGTCGTGGAGCTATGACATTCTGACTGGCCATATTCGGGTGAACCCACT GGTCAAGAGTTT TTCCAGGCTCCTTGTGGTGGGCCTGGGACTGCTGCTCTTTGTATTTCCCCTGCT CCTCCTCCTTTTG GAGTCAG 257019 FRMD3 HSX2_02319629 266 GTATTGATCTCTCCTTCTTATGCGAAATCCGCCAGACACCAGAGTTTGAGCAGT TTCACTATGAAT ACTACTGTCCCCTCAAGGAGTGGGTGGCTGGGAAAGTCCACCTCATCCTCTAC ATGCTGGGTTGC TCATGAAGTTAATCTCTCACGTGACTAAGGGCTATATTCAATGCTAGTGATTTC TTTTTTTCAGCAA ATGCCTGGTTCTGAAGGGTCACGGGGCTGTCAACAGGTGTTCCTTACTCATAA TTGATTATTCAAA CCTTTAAGTTAGCTTTCCATAATTCACTGCACTTAAATAAGTTTAAATCAAATAC AGTTATTTTAGTT ACAGGTTAGGAAGATGGTCTTTAAATAACCAAAAATATGTTTATTTTTTATTAT AGTGTAGACATA CCCTTCATCTATTATATCATAATACATGTTACATTGGACTGAATTAGATTTTCCC ATTTCTAATAGTT GGCACCATTATAAGCTATAAGGTTCAGAATCAGAATTTTAGTAACAACTCAAG AGAAAGTTGTTG AATATAATCCTTAGTGAAAACAGTGTCCTCTAACCAATGCCTATACAACTAAAT TTATGCTGGGTT TTTGGTTCTGTTTTTTTAAAAATATTTTTATGTGTTCAAACTATTTTGGTAAATTT TTAGCAA 257019 FRMD3 HSX2_02319637 267 CCTCCTTTTGGAGTCAGGTATTGATCTCTCCTTC 257019 FRMD3 HSX2_02319641 268 ACTTCCTCTGGGTGAGGGTGTTCCATTGCCTAAA 257019 FRMD3 HSX2_02581974 269 CTGAGCTTGGTGATTACGATCCTGATGAGCATCCTGAGAATTACATCAGTGAG TTTGAGATTTTCC CCAAGCAGTCACAGAAGCTGGAAAGAAAAATAGTGGAAATTCATAAAAATGA ACTCAG 122786 FRMD6 HSX2_02188584 270 ACTATATGTCGGAAACCAAAGACCTCCACTGATCGACACAGCTTGAGCCTCGA TGACATCAGACT TTACCAGAAAGACTTCCTGCGCATTGCAGGTCTGTGTCAGGACACTGCTCAGA GTTACACCTTTG GATGTGGCCATGAACTGGATGAGGAAGGCCTCTATTGCAACAGTTGCTTGGCC CAGCAGTGCAT CAACATCCAAGATGCTTTTCCAGTCAAAAGAACCAGCAAATACTTTTCTCTGGA TCTCACTCATGA TGAAGTTCCAGAGTTTGTTGTGTAAAGTCCGTCTGTGTGCAGCTGTACAGGCA GCTTACTGTTTGC TAGAGGATGCGAAAGTCATAAGTTCTTTACATATTACTTGTGCCATATCTTCTTC ACCCTAAACATA GCTCTTTCTTTATAATATTTGTGATGATGGAAACAAAAGCCTTGGAACAATTGC ACTTTAAGTATTA CACAGAAGTAAAAGAACTACAGAAAATGTACAGCAAGACAAGTGCCCGGAAG TTCACTGATCCT TCAGAAGGAAATGCGCTTTACTGATTGCAAAGCCTTCAGAATATTGGAGTGTG GTGTGTTTGCTC ATCTGATGCTTTTTAGTTCAGTTACATGTAACATCACATTTTTTTATCACGTGAA AGATGTTAGATT TGTTTGCTTATAAATTTTTTACCACTCCCACATAAAATGCTCATAGTTTGGGAGA GGAAAGAGGGA AGATTCTCTCTTCTTTTAACAGAGAGATGATTGCTCTGTATACCCATTGCTTCCT CCCTGAGGCTGT CCCAAAGTGAACACTGATGGAGTGGTCAAAATCATAAGGTTGTAGCAAGCCAA AGATACGTATG TGACAGAAGCACATAAGCAATAAGCAGAAAACCAGAAGTGCATGCTGTGATG CCTGTGACTCCTT CATCCCGCTCAGTGCCATGTCCTCTTTTGTGATCTTCCAGAAAGCTCCAGGATTC ATTTGAGTTCCA CATCCAAGTAACAGATGAATTATATTCATGTTGTAATGCA 8321 FZD1 HSX2_01329270 271 GACCCCGGCGCGCCCTAGCCACCCGGGTTCTCCCCGCCGCCCGCGCTTCATGA ATCGCAAGTTTC CGCGGCGGCGGCGGCTGCGGTACGCAGAACAGGAGCCGGGGGAGCGGGCC GAAAGCGGCTTG GGCTCGACGGAGGGCACCCGCGCAGAGGTCTCCCTGGCCGCAGGGGGAGCC GCCGCCGGCCGT GCCCCTGGCAGCCCCAGCGGAGCGGCGCCAAGAGAGGAGCCGAGAAAGTAT GGCTGAGGAGG AGGCGCCTAAGAAGTCCCGGGCCGCCGGCGGTGGCGCGAGCTGGGAACTTTG TGCCGGGGCGC TCTCGGCCCGGCTGGCGGAGGAGGGCAGCGGGGACGCCGGTGGCCGCCGCC GCCCGCCAGTTG ACCCCCGGCGATTGGCGCGCCAGCTGCTGCTGCTGCTTTGGCTGCTGGAGGCT CCGCTGCTGCTG GGGGTCCGGGCCCAGGCGGCGGGCCAGGGGCCAGGCCAGGGGCCCGGGCC GGGGCAGCAAC CGCCGCCGCCGCCTCAGCAGCAACAGAGCGGGCAGCAGTACAACGGCGAGCG GGGCATCTCCG TCCCGGACCACGGCTATTGCCAGCCCATCTCCATCCCGCTGTGCACGGACATCG CGTACAACCAG ACCATCATGCCCAACCTGCTGGGCCACACGAACCAGGAGGACGCGGGCCTGG AGGTGCACCAGT TCTACCCTCTAGTGAAAGTGCAGTGTTCCGCTGAGCTCAAGTTCTTCCTGTGCT CCATGTACGCGC CCGTGTGCACCGTGCTAGAGCAGGCGCTGCCGCCCTGCCGCTCCCTGTGCGAG CGCGCGCGCCA GGGCTGCGAGGCGCTCATGAACAAGTTCGGCTTCCAGTGGCCAGACACGCTC AAGTGTGAGAAG TTCCCGGTGCACGGCGCCGGCGAGCTGTGCGTGGGCCAGAACACGTCCGACA AGGGCACCCCG ACGCCCTCGCTGCTTCCAGAGTTCTGGACCAGCAACCCTCAGCACGGCGGCGG AGGGCACCGTG GCGGCTTCCCGGGGGGCGCCGGCGCGTCGGAGCGAGGCAAGTTCTCCTGCCC GCGCGCCCTCA AGGTGCCCTCCTACCTCAACTACCACTTCCTGGGGGAGAAGGACTGCGGCGCA CCTTGTGAGCC GACCAAGGTGTATGGGCTCATGTACTTCGGGCCCGAGGAGCTGCGCTTCTCGC GCACCTGGATT GGCATTTGGTCAGTGCTGTGCTGCGCCTCCACGCTCTTCACGGTGCTTACGTAC CTGGTGGACAT GCGGCGCTTCAGCTACCCGGAGCGGCCCATCATCTTCTTGTCCGGCTGTTACAC GGCCGTGGCCG TGGCCTACATCGCCGGCTTCCTCCTGGAAGACCGAGTGGTGTGTAATGACAAG TTCGCCGAGGA CGGGGCACGCACTGTGGCGCAGGGCACCAAGAAGGAGGGCTGCACCATCCTC TTCATGATGCTC TACTTCTTCAGCATGGCCAGCTCCATCTGGTGGGTGATCCTGTCGCTCACCTGG TTCCTGGCGGCT GGCATGAAGTGGGGCCACGAGGCCATCGAAGCCAACTCACAGTATTTTCACCT GGCCGCCTGGG CTGTGCCGGCCATCAAGACCATCACCATCCTGGCGCTGGGCCAGGTGGACGGC GATGTGCTGAG CGGAGTGTGCTTCGTGGGGCTTAACAACGTGGACGCGCTGCGTGGCTTCGTGC TGGCGCCCCTC TTCGTGTACCTGTTTATCGGCACGTCCTTTCTGCTGGCCGGCTTTGTGTCGCTCT TCCGCATCCGCA CCATCATGAAGCACGATGGCACCAAGACCGAGAAGCTGGAGAAGCTCATGGT GCGCATTGGCGT CTTCAGCGTGCTGTACACTGTGCCAGCCACCATCGTCATCGCCTGCTACTTCTA CGAGCAGGCCTT CCGGGACCAGTGGGAACGCAGCTGGGTGGCCCAGAGCTGCAAGAGCTACGCT ATCCCCTGCCCT CACCTCCAGGCGGGCGGAGGCGCCCCGCCGCACCCGCCCATGAGCCCGGACT TCACGGTCTTCA TGATTAAGTACCTTATGACGCTGATCGTGGGCATCACGTCGGGCTTCTGGATCT GGTCCGGCAAG ACCCTCAACTCCTGGAGGAAGTTCTACACGAGGCTCACCAACAGCAAACAAGG GGAGACTACAG 2560 GABRB1 HSX2_00936262 272 GATTATACACTCACCATGTATTTCCAGCAGTCTTGGAAAGACAAAAGGCTTTCT TATTCTGGAATC CCACTGAACCTCACCCTAGACAATAGGGTAGCTGACCAACTCTGGGTACCAGA CACCTACTTTCT GAATGACAAGAAATCATTTGTGCATGGGGTCACAGTGAAAAATCGAATGATTC GACTGCATCCTG ATGGAACAGTTCTCTATGGACTCCG 2561 GABRB2 HSX2_00936319 273 GTCCCCCCGTGGCTGTGGGGATGAACATTGACATTGCCAGCATCGATATGGTT TCTGAAGTCAAT ATG 2561 GABRB2 HSX2_00936324 274 GATTATACCTTGACAATGTACTTTCAACAAGCCTGGAGAGATAAGAGGCTGTC CTATAATGTAATA CCTTTAAACTTGACTCTGGACAACAGAGTGGCAGACCAGCTCTGGGTGCCTGA TACCTATTTCCTG AACGATAAGAAGTCATTTGTGCACGGAGTGACTGTTAAGAACCGCATGATTCG CCTGCATCCTGA TGGCACCGTCCTTTATGGACTCAG 2561 GABRB2 HSX2_00936329 275 AATCACAACCACAGCTGCCTGCATGATGGACCTAAGGAGGTACCCACTGGATG AACAAAACTGC ACCTTGGAAATTGAGAGCT 2561 GABRB2 HSX2_00936349 276 ATGGACCCCCATGAGAACATCTTACTGAGCACTCTCGAGATAAAAAATGAAAT GGCCACATCTGA GGCTGTGATGGGACTTGGAGACCCCAGAAGCACAATGCTAGCCTATGATGCCT CCAGCATCCAG TATCGGAAAGCTGGGTTGCCCAGGCATAGTTTTGGCCGAAATGCTCTGGAACG ACATGTGGCGC AAAAGAAAAGTCGCCTGAGGAGACGCGCCTCCCAACTGAAAATCACCATCCCT GACTTGACTGAT GTGAATGCCATAGATCGGTGGTCCCGCATATTCTTCCCAGTGGTTTTTTCCTTCT TCAACATCGTCT ATTGGCTTTATTATGTGAACTAAAACATGGCCTCCCACTGGAAGCAAGGACTA GATTCCTCCTCAA ACCAGTTGTACAGCCTGATGTAGGACTTGGAAAACACATCAATCCAGGACAAA AGTGACGCTAAA ATACCTTAGTTGCTGGCCTATCCTGTGGTCCATTTCATACCATTTGGGTTGCTTC TGCTAA 2561 GABRB2 HSX2_00936350 277 CTAGACAGCCTGAGTGCTCCATGTTGTCTGTTTAGTATGCAGCCTACTCAGAGG GGAATAATTTG GAAGATATTCTTAGAAGGCTCAACAGCATTGTCAGTCATTTGGTCATAACCAG ATACTCCTCATCT TCCTTTTTAAGGTCGGCATGCTGTTGAGATGGCATTGTCCTTATGAAACATTAT CTGTAATGCCAT GCAAACACATTACTTGAAGATGATCTATGATTTTCTTACTGAGATGATAATGGT GTCATGGGAAG ATTATTCCCACTGGTTTCTAAAAGATTCTCTTGTGATTTGAGCAGGCTAGGGGA ATCAAGACAGA GACTCAGGAAACCGATTTGGCCAGTCCCTTTGCTTGAGCACGGAGAATCAACT ATGATGTCTTTC ATTTTGGCATTTAGAGATGAGGAGACTTCTGGACAATATCATGCATGGTGGCC AAGAAAATTTTT GCTAAACGGCTATTTCCTAGGTGGTTAAAGTAAGAGTTAACAACACAGAGCAG AGTAGAAAATCA GAAACGACGGTTGTAACAAAAAGCAAGCAAGCAAGAAAGCATGACCCTTATC AGCTCCACACAG CATCTGGTCTATACATACTGTGTCTAGTGGCAGAGGGTGAGTAAGAGAGATTG TTTTTCCAACAT CACTAGCTTTTGACAGCATACCTAAAGAGGTTTTTATAGTTTAATCGAAGATAA CCATGAAATACA AAAATTAGAGAAATGAGAATTGTCTTAGATATTCAGGTTAGATTCAGAGTCAT TCAAATATACAAA TACAGAGCACAAACTAGCAAACAGATTGTTTTTCTCAGACGAAGTCAGCTGTCC CTGCAATTTTTG TCCCTATAATTTTATTTCTTAATTTAATAGAGTATTTCAAGAGAAGGATTTGTTC ATCACTTTAAAG GATTCATGGTCCTCTCCAGCTTTTTTTTTGCTTCCAAAATTCTGATTATATTCTTA GGAGACTGGCA AAGTAAGGCTTTGGAGAGATTGAGTGAACTATATTTTCTTATATGCAATGAAAT TCACCATTGTAT TTTTCAAAGCAAATAATACTTCAAGGAGTATGAACACACAGAGAGTTAATTTGT GCATTCATTGGT TTGGGGCTTGATTTTCTTAAGAGTGCTTTCATTGTATATGTTGCAATCTGCCTAA TCAAGGAAAAT ATGAAAACTAGTGGAAAATAATAACAAAGCCACATTAACATGATAAATGTTAT GAGCCTCAGTTG ATATTGCAGAAAAATATATAACTGTTAATCAGGCAGGCATGATGTATTTTTTTT CTATTTTTAAGTT ATGCCATTGTGCTTCTTTCTACACTAATTGGACATAAGCATTCATATGTTGGACA AGAGGAGAATA AGCTAATATGTCTTCCTTCTATCAATATAAGGCTCATATTTTGCTTTTCTTATAGA AAATAGTGAAT TGCTAAATTTTCCTTAAAGTTGAATTTGATTGAACTTTTTCTTGGAGGATGACTT TGCTATTTCTATT TTGAAAACAAAGAAAGCTCTTCTTTTTAGAGTAATATCCCTAATTGTGCATAGC AGCCAGTATCCA CCTGTGAATAATGTATGTTTTCTTGATTCCTTGTTTCCTTCATGATTTAGCAGCTT GGAATATGATG GAGTACTATTGCCCTTGCATTCCAGCTGTCCAAGAACAACAACAAACCTTTATC CTTCAGCTTTCTG AATTTGCCCCAAAATGGAATGGTATTTTGTTTTTCACCAGTGTAGGAAACCTTG GCCATTATATTTT GATTACATAATCTTGAGCACCTCTGAGTATCATCTTTGGGCAGAATCTGACCAA GATTCTTCTCAC AGGCTCAGAGTAGAGATTCCTCATGTTTCTCCAGGACACACTTTCTCCTAGGCA ATCATTTTGGGG CATCACACTAAGTAAAGTGCCTGCCCCTTGTCAACAGGGGGTAAAGTTTGACT AAAAAACATCAG GAAGGAACATATTGATAACTCAGGGGCACAACTCCAAAATGCCATTCTGAAAA GGCTCTTCTAGA GTCAACTCAGAGCCCAAGTGTAGAAGTGGGCTCTTATGTGCAATCACTGTACA AGCCATAAAAAT CTTTGATATTGCCATTTATGATTACAACAAAATTTTAGATGTCCAAGAAAGTCA ACAGAACAATCC AGATCAAAGTGTAGAGAAGCATCTTTGCAGCTTGAGCCTCAAAAGCATAAAAC CAGGAATTCATT 2561 GABRB2 HSX2_02488302 278 GCCTGGATGTCAACAAGATGGACCCCCATGAGAA 2563 GABRD HSX2_00936493 279 GAGTACACCATGACGGTGTTCCTGCACCAGAGCTGGCGGGACAGCAGGCTCT CCTACAACCACA CCAACGAGACCCTGGGTCTGGACAGCCGCTTCGTGGACAAGCTGTGGCTGCCC GACACCTTCATC GTGAACGCCAAGTCGGCCTGGTTCCACGACGTGACGGTGGAGAACAAGCTCA TCCGGCTGCAGC CCGACGGCGTGATCCTGTACAGCATCCG 2569 GABRR1 HSX2_00936876 280 TAATAATGGCCGTAAGCTTAAAATAGATCCAGGGAGGAGCTCATTAACGTGAA CATAGAAAGCA GTTCCGCACCTCTGGCCTTACTCCTCTTGGAAATTGCTTTGGTCCATTTTTACTT CCTTTTATTCGAC GCACCAGAAAATAAGACTTTTACCAACATTTTTACTGCATTTGACGATGAACTA ATTTAGACCGGC TAAAATAATTGTTCCACTGGGACACAGGAATTCAACCTCAGTTCAGAAAATCCC TGACATCTGACG TAGGAGGATTTATAGGTTTAGTGGAAATTGCTTTCTCCTGCTCTCCAGATTGCA TCCTGTGGGTTG ATTTTTTTTTTGCATGAGTAAACATCCTTCTAATAATGAACAGACCAATAATGTC TTAAGAGAGAA AAAGAACAATCTTTTCCTTTTTGCTGTTTCTGGAGAGAGCTGTTTGAATTTGG 2581 GALC HSX2_00937669 281 ATTACCCATTTTTTAGTGAAGCTCCAAACTTTGCTGATCAAACTGGTGTATTTGA ATATTTTACAAA TATTGAAGACCCTGGCGAGCATCACTTCACGCTACGCCAAGTTCTCAACCAGA GACCCATTACAT GGGCTGCCGATGCATCCAACACAATCAGTATTATAGGAGACTACAACTG 51809 GALNT7 HSX2_01783826 282 GGGGAGAGCGGTGGCGGCGGCTGCGCCGGGCTGTGAGTCTCTCGCCGCCGG AGGAAGATGAG GCTGAAGATTGGGTTCATCTTACGCAGTTTGCTGGTGGTGGGAAGCTTCCTGG GGCTAGTGGTCC TCTGGTCTTCCCTGACCCCGCGGCCGGACGACCCAAGCCCGCTGAGCAGGATG AGG 51809 GALNT7 HSX2_01783838 283 AAACAAGCAATTCAAGCCAGCATTAAAGAGTTTGGATTTAACATGGTGGCAAG TGACATGATCTC ACTGGACCGCAGCGTCAATGACTTACGCCAAGAAGA 51809 GALNT7 HSX2_01783857 284 GTTTTGATATACCTTGATGCCCACTGTGAGGTGGCAGTTAACTGGTATGCACCA CTTGTAGCTCCC ATATCTAAGGACAG 51809 GALNT7 HSX2_01783878 285 AATTATGTTAGAGTTGTGGAGGTTTGGTGGGATGAATATAAAGACTACTTCTA TGCTAGTCGTCCT GAATCGCAGGCATTACCATATGGGGATATATCGGAGCTGAAAAAATTTCGAGA AGATCACAACT GCAAAAGTTTTAAGTGGTTCATGGAAGAAATAGCTTATGATATCACCTCACACT ACCCTTTGCCAC CCAAAAATGTTGACTGGGGAGAA 51809 GALNT7 HSX2_01783883 286 ATCAGAGGCTTCGAAACTGCTTACTGCATTGATAGCATGGGAAAAACAAATGG AGGCTTTGTTGA ACTAGGACCCTGCCACAGGATGGGAGGGAATCAG 51809 GALNT7 HSX2_01783895 287 AACCTGCACAGATTTACTCATATTCCTTCAGGAAAGTGTTTAGATCGCTCAGAG GTCCTGCATCAA GTATTCATCTCCAATTGTGACTCCAGTAAAACGACTCAAAAATGGGAAATGAAT AACATCCATAGT GTTTAGAGAGAA 51809 GALNT7 HSX2_02553388 288 GAAGACAGAGATGTCAATGACCCCATGCCCAACCGAGGCGGCAATGGACTAG CTCCTGGGGAG GACAGATTCAAACCTGTGGTACCATGGCCTCATGTTGAAGGAGTAGAAGTGG ACTTAGAGTCTAT TAGAAGAATAAACAAGGCCAAAAATGAACAAGAGCACCATGCTGGAGGAGAT TCCCAGAAAGAT ATCATGCAGAGGCAGTATCTCACATTTAAGCCTCAGACATTCACCTACCATGAT CCTGTGCTTCGC CCAGGGATCCTCGGTAACTTTGAACCCAAAGAACCTGAGCCTCCTGGAGTGGT TGGTGGCCCTGGAGAGAAAGCCAAGCCATTGGTTTTGGGACCAGAATTC 168391 GALNTL5 HSX2_02580131 289 ACTGTGTGGCCCCGCAACCCAGCACAACCAGGTATCTGCTTGGAACCCAGCCA CCATAAAGCCTG CTAGCTAAAAAAAATTTTACATCTCTCAGTTCATTCGGCACAGACCCCTGCCTC ATTCAGCTGTGA CTCTGCTTGGAAAATTCATCAGTTACAAAGCAGCCAATGCAATTATCTCAAGG 2595 GANC HSX2_00939002 290 GGTTCTTCAGTGGGTGAGTTATATCTTGATGATGGCCATTCATTCCAATACCTC CACCAGAAGCAA TTTTTGCACAGGAAGTTTTCATTCTGTTCCAGTGTTCTGATCAATAG 2635 GBP3 HSX2_00941807 291 GAACAGGCCCGAGTACTAAAGGAGAGATGCCAAGGTGAAAGTACCCAACTTC AAAATGAGATAC AAAAGCTACAGAAGACCCTGAAAAAAAAAACCAAGAGATATATGTCGCATAA GCTAAAGATCTA AACAACAGAGCTTTTCTGTCATCCTAACCCAAGGCATAACTGAAACAATTTTAG AATTTGGAACAA GTGTCACTATATTTGATAATAATTAGATCTTGCATCATAACACTAAAAGTTTACA AGAACATGCAG TTCAATGATCAAAATCATGTTTTTTCCTTAAAAAGATTGTAAATTGTGCAACAA AGATGCATTTACC TCTGTACCAACAGAGGAGGGATCATGAGTTGCCACCACTCAGAAGTTTATTCTT CCAGACGACCA GTGGATACTGAGGAAAGTCTTAGGTAAAAATCTTGGGACATATTTGGGCACTG GTTTGGCCAAGT GTACAATGGGTCCCAATATCAGAAACAACCATCCTAGCTTCCTAGGGAAGACA GTGTACAGTTCT CCATTATATCAAGGCTACAAGGTCTATGAGCAATAATGTGATTTCTGGACATTG CCCATGG 2635 GBP3 HSX2_02501985 292 GTACCAGTCAAAAAGATAAAAATTTTAATCTGCCCCGACTCTGTATCCGGAAGT TCTTCCCAAAGA AAAAATGTTTTGTCTTCGATCTGCCCATTCACCGCAGGAAGCTTGCCCAGCTTG AGAAACTACAAG ATGAAGAGCTGGACCCTGAATTTGTGCAACAAGTAGCAGACTTCTGTTCCTAC ATCTTTAGCAATT CCAAAACTAAAACTCTTTCAGGAGGCATCAAGGTCAATGGGCCTC 6843 VAMP1 HSX2_01248411 293 GGCGGGACTGAAGAGCTGGAAGAAAGCAGTCAGTACCCTCCCAACGGCCCCC CTCGAAGGTCTC CACTCTCCTCTGGGCTCCTCCTTGCCTAATGCAGGGGGTCACCGCTGGAGAAG AACCACCACTGT CCTCGATGTGTCCCAAGCCTGGAGCGAATCCGTCCTCTTGGCTCTCCCAGCCCT ATCACAGGAATC ATTCCTGGGTTTCTGTCCCTCTGAGGCTCACCAGGTGTAGTTGGCCTTGTTCTTT GGGGGTATTAG CCCTTCTACTTTCTTTCTCACCCACCCTGTACCCTCTTCTGTGTGTCTCTGCTATC CCCCTTTCCTCCC ACCACCCATGTGCATGAGCAAATGTGCAACAAAACCCTGGGACTTTGCAGTCA AATGAAGCTGAG CTTCCCACATCCCGTTCTTCGGTTTGCCATGAGACGATGTGGGGTTTCCACTGT GTGTCTGTCATC ACCTCTTTGTCTTTTTTTCCTAACCCTGATCTCATACTTGTATAGAGTAATAACAA CAGTTGTACTTC CACCAAAGGCATGTGGCATATTTACCAATGTCATGTATTCTGAACAAAGGCAA AAAATACAAATT CCTACCATTAA 6843 VAMP1 HSX2_02520727 294 ATGATGATCATGCTGGGAGCCATCTGTGCCATCATCGTGGTAGTTATTGTAA 10810 WASF3 HSX2_01528591 295 GACAGAGTGCCCAGCGGGTCACATGCATCGGACG 9203 ZMYM3 HSX2_01391230 296 CCAAACCCATGCGTATCAAAGAGGATATTCTCGCCTGCTCAGCTGCTGAGCTCA ACTACGGTCTG GCCCAGTTTGTGAGAGAAATCACTCGGCCCAATGGTGAACGATATGAACCTGA CAGTATCTACTA TTTGTGTCTTGGCATCCAGCAG 140688 NOL4L HSX2_02221814 297 GGCCCACGGACCTCAGCATGAAAGGCGGGGCCTCTACCACCTCCACCACCCCC ACGCCC 84527 ZNF559 HSX2_02102522 298 CTGAGAGCCACAGTCAGGTCTGTCCTCAGGGGTC 23015 GOLGA8A HSX2_01586004 299 GAATAATCGGTGGAGATGGATTGTGAAATGGAGGTGCATAAATATCCAGTTT GCCAACCGAGCT AAGAAATGCTGGATAAAAGTAAAAG 440270 GOLGA8B HSX2_02404961 300 AGCTTGGAGCAAAGAAGATGATGTCTCACTCTGT 6196 RPS6KA2 HSX2_01198733 301 CCTTTCAGACGGAAGGAAAGCTCTACCTGATCCTGGACTTCCTGCGGGGAGGG GACCTCTTCACC CGGCTCTCCAAAGAG 6196 RPS6KA2 HSX2_01198797 302 GTTGTTCATCGAGACCTGAAGCCGAGTAACATCCTGTACAGGGATGAGTCGGG GAGCCCAGAAT CCATCCGAGTCTGCGACTTCGGCTTTGCCAAGCAGCTGCGCGCGGGGAACGG GCTGCTCATGAC ACCCTGCTACACGGCCAATTTCGTGGCCCCGGAG 2859 GPR35 HSX2_00954161 303 GGTGGCCCTTTGGGCTCCCTGTCCAGGATTTGCGCTCTGGAGGGTAGGGCTTG CTGGGCTGGGG ACTGGAGGGGAACGTGGAGCTCCTTCTGCCTCCTTTCCTGCCCCATGACAGCA GGCAGATCCCAG GAGAGAAGAGCTCAGGAGATGGGAAGAGGATCTGTCCAGGGGTTAGACCTC AAGGGTGACTTG GAGTTCTTTACGGCACCCATGCTTTCTTTGAGGAGTTTTGTGTTTGTGGGTGTG GGGTCGGGGCT CACCTCCTCCCACATCCCTGCCCAGAGGTGGGCAGAGTGGGGGCAGTGCCTTG CTCCCCCTGCTC ACTCTCTGCTGACCTCCGGCTCCCTGTGCTGCCCCAG 51704 GPRC5B HSX2_01779589 304 AACACGCCCAACTACTTCGACACGTCGCAGCCCAGGATGCGGGAGACGGCCTT CGAGGAGGACG TGCAGCTGCCGCGGGCCTATATGGAGAACAAGGCCTTCTCCATGGATGAACAC AATGCAG 2869 GRK5 HSX2_00954458 305 CCCCGCGCTGTGTACTGTAAGGACGTGCTGGACATCGAGCAGTTCTCCACTGT GAAGGGCGTCA ATCTGGACCACACAGACGACGACTTCTACTCCAAGTTCTCCACGGGCTCTGTGT CCATCCCATGGC AAAACGAG 2869 GRK5 HSX2_00954468 306 TCTACTGTCTCAGTTTACATTTTGTATATTTGTATTTAAATGAAAGTGAGACTTT GAGGGTGTATAT TTTCTGTGCAGCCACTGTTAAGCCATGTGTTCCAAGGCATTTTAGCGGGGAGG GGGTTATCAAAA AAAAAAAAATGTGACTCAAGACTTCCAGAGCCTCAAATGAGAAAATGTCTTTA TTAAATGTAGAA AGTGATCCATA 54103 GSAP HSX2_01789812 307 GAAGTTTGTGTGTATGTTACAGCCCGAAGTGTGCCTCTTGGGGACAAATCACA TATTCAGTGTTTT ACATTCATAAAG 54103 GSAP HSX2_01789986 308 ATCTGGATAATACAGAGAAAAATGAAAAACTGAAATTCAGTATCATTGTGCGG CTTCCTCCG 373156 GSTK1 HSX2_02371777 309 GCCTTTGGGCTGCCCATCACCGTGGCCCATGTGGATGGCCAAACCCACATGTT ATTTGGCTCTGA CCGGATGGAGCTGCTGGCGCACCTGCTGG 84705 GTPBP3 HSX2_02572437 310 AGGAGGGGGTCCTGGAGGCTCTGGCCCACGTGGA 727936 GXYLT2 HSX2_02430028 311 AGTGTCTCTATGTATTCCCCTGCCAGTGGAACTACCGTCCCGATCACTGCATGT ACGGAAGCAACT GCAGAGAGGCTGAGCATGAAGGTGTGTCTGTTCTGCATGGAAACCGAGGCGT CTACCATGACGA TAAGCAACCAACGTTCAGAGCACTCTATGAAGCAATACGGGAT 727936 GXYLT2 HSX2_02430046 312 TTTCCCTTTCAAGACAATCTCTTTCAATCCATGTATTACCCCCTTCAGCTGAAGTT TTTGGAGACTG TGCACACTTTATGTGGACGAATCCCGCAAGTTTTTCTGAAGCAAATTGAGAAA ACAATGAAAAGG GCTTATGAGAAACACGTCATCATCCATGTTGGCCCCAACCAGATGCACTGAAT ATTTTGTCTTGTT GCAAGTCAATTAGGTGTCTTGTGACCAAGGAAATACTAATCTCTAAGCTGCCT GGGTCTTTT 727936 GXYLT2 HSX2_02430047 313 TGTGTGAATATTTAATGGTGCTCCATGACTGTTGAGTTTTAAAAACCTCGTTAA ATTTTGCCAAATC AGTTGCCCCCAAAAGGGAATATGCTTTTCCTTATTTTTTTTTCTAAAATGCTATT TATCTCTAAGGA A 3014 H2AFX HSX2_00965768 314 GTTTGAGCCGTCGTGCTTCACCGGTCTACCTCGCTAGCATGTCGGGCCGCGGC AAGACTGGCGG CAAGGCCCGCGCCAAGGCCAAGTCGCGCTCGTCGCGCGCCGGCCTCCAGTTCC CAGTGGGCCGT GTACACCGGCTGCTGCGGAAGGGCCACTACGCCGAGCGCGTTGGCGCCGGCG CGCCAGTGTAC CTGGCGGCAGTGCTGGAGTACCTCACCGCTGAGATCCTGGAGCTGGCGGGCA ATGCGGCCCGC GACAACAAGAAGACGCGAATCATCCCCCGCCACCTGCAGCTGGCCATCCGCAA CGACGAGGAGC TCAACAAGCTGCTGGGCGGCGTGACGATCGCCCAGGGAGGCGTCCTGCCCAA CATCCAGGCCGT GCTGCTGCCCAAGAAGACCAGCGCCACCGTGGGGCCGAAGGCGCCCTCGGGC GGCAAGAAGGC CACCCAGGCCTCCCAGGAGTACTAAGAGGGCCCGCGCCGCGGCCGGCCGCCA GGCCTCCCCATG CCACCACAAAGGCCCTTTTAAGGGCCACCACCGCCCTCATGGAAAGAGCTGAG CCGCTTCAGACT GCGGGGCAAGCGGGCCGCGGCTCCCTTCCCCTCCCCTCCCCTCGCCCGCCTTCG CCGCCCGGCCT CGAGTCCCCGCCCGCCCCCGCTCCCGTCCCGCACCGCCTGCCGCGTCGGCCTCG GGCCCTGCCCT GTCCGCCGTCCGCCCTCCGGTAGGGTTCGGGCCTTCCGGATGCGGCTTGGGCG CTCTTCGGGGA CCTCCGTGGCGCGGAAGACCCGAGCCTGCCGGGGGGAGGCCGGCGGCGCCG CACCTGCCCGCC TCGGCGTTCGTGACTCAGCCGCCCCATCCCGAGTCGCTAAGGGGCTGCGGGG AGGCCGCAGCAC CTTCTGGAAGACTTGGCCTTCCGCTCTGACGCAGGGCCGAGGTGGGCAGTCCA GGCCGAGAGGC CGGCGGCCCTGAAGGTGAGTGAGGCCCTCGGCAGCTGCAGCCGGGGTGTCTG GTACCCCCCCG GCGTGGTGCTTAGCCCAGGACTTTCAGACGCGGCCGCTGGCCGGGAGGCTTT GGTGGGAGAGA CGCGATCGCCGATTTCGGTCTGGCGCCCCTTCTGCGGCCGGGACCCAGGCCTT TCACATCAGCTC TCCCTCCATCTTCATTCATAGGTCTGCGCTGGGGCCGGGACGAAGCACTTGGT AACAGGCACATC TTCCTCCCGAGTGACTGCCTCCTAGGAGGACATTTAGGGGAGGGCAGAGGCCT GCAGTTTGGCT TCACGGCTGGCTATGTGGACAGCAAGAGTCGTTTTCGCGGAAGCCGACTGGC AGCCAGGCCTGT CGGGCCCCCCGACGCCGCCCCATTTCCCTTCCAGCAAACTCAACTCGGCAATCC AAGCACCTAGA TACCAGCACAAGTCGGTTAATCCCTGTCTGGACTGAGCCTCCGTTGGCTTCTGA ACTGGAATTCTG CAGCTAACCCTTCCACGACTAGAACCTTAGGCATTGGGGAGTTTTAGATGGAC TAATTTTATTAAA GGATTGTTTTTTTTTTAA 57493 HEG1 HSX2_01924755 315 TTGGAGAACATCAGCTTGCCAGCAGCTCTGAGGTGCAAAATGGAAGTCCCATG TCTCAGACTGA GACTGTGTCTAGGTCAGTCGCACCCATGAGAGGTGGAGAGATCACTGCACACT GGCTCTTGACC AACAGCACAACATCTGCAGATGTGACAGGAAGCTCTGCTTCATATCCTGAAGG TGTGAATGCTTC AGTGTTGACCCAGTTCTCAGACTCTACTGTACAGTCTGGAGGAAGTCACACAG CATTGGGAGATA GGAGTTATTCAGAGTCTTCATCTACATCTTCCTCGGAAAGCTTGAATTCATCAG CACCACGTGGAG AACGTTCGA 57493 HEG1 HSX2_01924813 316 ACAGTTCACGCCTCTAGGGAGTCCAACGCGGTGG 57493 HEG1 HSX2_01924845 317 AAAGAATAAAAATGACATAAGCAAACTCATCTTCAAAAGTGGAGATTTCCAAA TGTCCCCGTATG CTGAATACCCCAAAAATCCTCGCTCACAAGAATGGGGCCGAGAAGCTATTGAA ATGCATGAGAAT GGAAGTACCAAAAACCTCCTCCAGATGACGGATGTGTACTACTCG 57493 HEG1 HSX2_01924856 318 CGGATGTGTACTACTCGCCTACAAGTGTAAGGAA 9931 HELZ HSX2_01455269 319 ATTTTTAGAACAAGGAATCTGTAGGTATGGTGCCCAGTGTACTTCAGCACATTC CCAGGAAGAAC TAGCAGAATGGCAGAAAAGATATGCTTCACGGCTGATAAAATTGAAACAGCA AAATGAGAATAA ACAGCTCTCAGGCAGTTACATGGAAACCTTGATAGAAAAGTGGATGAATTCAT TGTCTCCTGAGA AAGTG 9931 HELZ HSX2_01455291 320 GTTCAACCTTAAAGTGCAATTGCAGATTCTGGCAAGCTTCATGCTCACTGGTGT TTCTGGAGGTGC AAAGTATGCTCAGAATGGACAACTTTTTGGTCGCTTTAAGCTTACTGAAACACT TTCTGAAGATAC TTTGGCTGGACGACTGGTGATGACCAAAGTCAATGCTGTTTATTTATTACCAGT CCCTAAACAGAA GTTAGTACAGACCCAGGGAACCAAAGAGAAGGTTTATGAAGCTACTATTGAA GAAAAAACAAAG GAATATATATTTTTAAGGCTATCTAGGGAATGCTGTGAAGAACTTAATCTTCGG CCTGACTGTGAC ACACAG 9931 HELZ HSX2_01455342 321 TTTGGGAACGGTTTATTGCCCTGTGTCATGAAAACAGTAGCCTACATGGAATC ACTTTTGAACAGA TCAAAGCCCAGTTAGAGGCTTTAGAACTAAAGAAGACATATGTGTTGAATCCG CTGGCACCTGAA TTTATCCCCCGGGCTCTAAGACTGCAGCATTCAGGAAGTACCAACAAACAGCA GCAATCACCACC CAAG 9931 HELZ HSX2_01455369 322 CTCAGCTTTCTCCTGCATATCAGGCGGGACCCAACAATGCTTTTTTTAATAGTG CAGTTGCTCATC GGCCACAGTCTCCTCCTGCAGAAGCTGTAATTCCGGAGCAGCAGCCCC 9931 HELZ HSX2_02533027 323 GAAATTTTGGGAACGGTTTATTGCCCTGTGTCATGAAAACAGTAGCCTACATG GAATCACTTTTGA ACAGATCAAAGCCCAGTTAGAGGCTTTAGAACTAAAGAAGACATATGTGTTGA ATCCGCTGGCAC CTGAATTTATCCCCCGGGCTCTAAGACTGCAGCATTCAGGAAGTACCAACAAA CAGCAGCAATCA CCACCCAAG 23493 HEY2 HSX2_01639712 324 ACCTCACGAGTGGAAATGTGGTATTCTCTTTTTTTTCTCTCCCTTTTTTGTTTGGT TCAAGGCAGCT CGGTAACTGACATCAGCAACTTTTGAAAACTTCACACTTGTTACCATTTAGAAG TTTCCTGGAAAA TATATGGACCGTACCATCCAGCAGTGCATCAGTATGTCTGAATTGGGGAAGTA AAATGCCCTGAC TGAATTCTCTTGAGACTAGATGGGACATACATATATAGAGAGAGAGTGAGAG AGTCGTGTTTCGT AAGTGCCTGAGCTTAGGAAGTTTTCTTCTGGATATATAACATTGCACAAGGGA AGACGAGTGTGG AGGATAGGTTAAGAAAGGAAAGGGACAGAAGTCTTGCAATAGGCTGCAGACA TTTTAATACCAT GCCAGAGAAGAGTATTCTGCTGAAACCAACAGGTTTTACTGGTCAAAATGACT GCTGAAAATAAT TTTCAAGTTGAAAGATCTAGTTTTATCTTAGTTTGCCTTCTTTGTACAGACATGC CAAGAGGTGAC ATTTAGCAGTGCATTGGTATAAGCAATTATTTCATCAGTTCTCAGATTAACAAG CATTTCTGCTCTG CCTGCAGGCCCCCAGGCACTTTTTTTTTTGGATGGCTCAAAATATGGTGCTGCT TTATATAAACCTT ACATTTATATAGTGCACCTATGAGCAGTTGCCTACCATGTGTCCACCAGAGGCT ATTTAATTCATG CCAACTTGAAAACTCTCCAGTTTGTAGGAGTTTGGTTTAATTTATTCAGTTTCAT TAGGACTATTTT TATATATTTATCCTCTTCATTTTCTCCTAATGATGCAACATCTATTCTTGTCACCC TTTGGGAGAAGT TACATTTCTGGAGGTGATGAAGCAAGGAGGGAGCACTAGGAAGAGAAAAGCT ACAATTTTTAAA GCTCTTTGTCAAGTTAGTGATTGCATTTGATCCCAAAACAAGATGAATGTATGC AATGGGATGTAC ATAAGTTATTTTTGCCCATGCCTAAACTAGTGCTATGTAATGGGGTTGTGGTTT TGTTTTTTTCGAT TTCGTTTAATGACAAAATAATCTCTTAATATGCTGAAATCAAGCACGTGAGAGT TTTTGTTTAAAA GATAAGAGACACAGCATGTATTATGCACTTCATTTCTCTACTGTGTGGAGAAA GCAATAAACATTA TGAGAATGTTAAACGTTATGCAAAATTATACTTTTAAATATTTGTTTTGAAATTA CTGTACCTAGTC TTTTTTGCATTACTTTGTAACCTTTTTCTATGCAAGAGTCTTTACATACCACTAAT TAAATGAAGTCC TTTTTGACTA 3098 HK1 HSX2_00971987 325 GACTATGATGCCAACATCGTAGCTGTGGTGAATGACACAGTGGGCACCATGAT GACCTGTGGCT ATGACGACCAGCACTGTGAAGTCGGCCTGATCATCG 9455 HOMER2 HSX2_01407795 326 AGAACAGCCCATCTTCACCACCCGAGCGCATGTCTTCCAGATTGACCCCAACAC CAAGAAGAACT GGATGCCTGCGAGCAAGCAGGCGGTCACCGTTTCCTACTTCTATGATGTCACA AGGAACAGCTAT CGGATCATCAGTGTGGACGGAGCCAAG 3249 HPN HSX2_00981105 327 AACCGGGTCCTGTCCCGATGGCGAGTGTTTGCCGGTGCCGTGGCCCAGGCCTC TCCCCACGGTCT GCAGCTGGGGGTGCAGGCTGTGGTCTACCACGGGGGCTATCTTCCCTTTCGGG ACCCCAACAGC GAGGAGAACAGCAACGATATTGCCCTGGTCCACCTCTCCAGTCCCCTGCCCCTC ACAG 3249 HPN HSX2_00981117 328 GAGGCTCGAGTCCCCATAATCAGCAATGATGTCTGCAATGGCGCTGACTTCTA TGGAAACCAGAT CAAGCCCAAGATGTTCTGTGCTGGCTACCCCGAGGGTGGCATTGATGCCTGCC AG 3249 HPN HSX2_02504427 329 GCCAACAGGCCGGGGTACTCCAGGAGGCTCGAGTCCCCATAATCAGCAATGA TGTCTGCAATGG CGCTGACTTCTATGGAAACCAGATCAAGCCCAAGATGTTCTGTGCTGGCTACCC CGAGGGTGGCA TTGATGCCTGCCAG 90161 HS6ST2 HSX2_02132501 330 TTCAATTTTCTTTAGTTTTAATTGAAAATGTTTGCTTTTAAAACTGATAGGTATT GTTGGAAAGCAG GATGAAGCCTGAGCCAGTGGAAAAGCTTGTTACAGAAAAAACATTTTGTGTTA TTGCTGTGGTGT GCATGATTTGCAAAGATTAAGTGCATTTTCTCTGTCTATACTGATTATTGTATAT AGAGGATGTTAT AAATATACATATACATTTTTGCCATTATGTAAATCCCATGATTTCAACTGTAAAC ATCTGTCCATTG GTGTAGCTTTACAAACCATTCACTGATTTTGTGTAATTTAACAATAGATATGAA ATAAAGTTTAAAT TACA 163702 IFNLR1 HSX2_02268031 331 ATTGAACCACCTTCTTTCCTGGGGCAAGAGCACCAGGCTCCAGGGCACTCGGA GGCTGGTGGGG TGGACTCAGGGAGGCCCAGGGCTCCTCTGGTCCCAAGCGAAGGCTCCTCTGCT TGGGATTCTTCA GACAGAAGCTGGGCCAGCACTGTGGACTCCTCCTGGGACAGGGCTGGGTCCT CTGGCTATTTGG CTGAGAAGGGGCCAGGCCAAGGGCCGGGTGGGGATGGGCACCAAGAATCTC TCCCACCACCTG AATTCTCCAAGGACTCGGGTTTCCTGGAAGAGCTCCCAGAAGATAACCTCTCCT CCTGGGCCACC TGGGGCACCTTACCACCGGAGCCGAATCTGGTCCCTGGGGGACCCCCAGTTTC TCTTCAGACACT GACCTTCTGCTGGGAAAGCAGCCCTGAGGAGGAAGAGGAGGCGAGGGAATC AGAAATTGAGGA CAGCGATGCGGGCAGCTGGGGGGCTGAGAGCACCCAGAGGACCGAGGACAG GGGCCGGACAT TGGGGCATTACATGGCCAGGTGAGCTGTCCCCCGACATCCCACCGAATCTGAT GCTGCTGCTGCC TTTGCAAGGACTACTGGGCTTCCCAAGAAACTCAAGAGCCTCCGTACCTCCCCT GGGCGGCGGA GGGGCATTGCACTTCCGGGAAGTCCACCTAGCGGCTGTTTGCCTGTCGGGCTG AGCAACAAGAT GCCCCTCCCTCCTGTGACCCGCCCTCTTTAGGCTGAGCTATAAGAGGGGTGGA CACAGGGTGGG CTGAGGTCAGAGGTTGGTGGGGTGTCATCACCCCCATTGTCCCTAGGGTGACA GGCCAGGGGGA AAAATTATCCCCGGACAACATGAAACAGGTGAGGTCAGGTCACTGCGGACATC AAGGGCGGACA CCACCAAGGGGCCCTCTGGAACTTGAGACCACTGGAGGCACACCTGCTATACC TCATGCCTTTCC CAGCAGCCACTGAACTCCCCCATCCCAGGGCTCAGCCTCCTGATTCATGGGTCC CCTAGTTAGGC CCAGATAAAAATCCAGTTGGCTGAGGGTTTTGGATGGGAAGGGAAGGGTGGC TGTCCTCAAATC CTGGTCTTTGGAGTCATGGCACTGTACGGTTTTAGTGTCAGACAGACCGGGGT TCAAATCCCAGC TCTGCTGTTCACTGGTTGTATGATCTTGGGGAAGACATCTTCCTTCTCTGCCTCG GCTTCCTCATCT GCAGCTACGCCTGGGTGTGGTGAGGGTTCTAGGGGATCTCAGATGTGTGTAG CACGGAGCCTGC TGTGTCCTGGGTGCTCTCTACGTGGTGGCCGGTAGAATTCTCCATCTATCCAGG CTCCAGGAGAC CCCTGGGCATCTCCCACCTGTGGCCCCTAAACCCAGAGTGACTGAGAGCACTT AACATTCAGCTT GTCTCATCCCCAGTCTACCTCCTTCCTTCTACCCTCACTGCCTCCCAGTCAGGAG AGTGAGCTCTCA GAAGCCAGAGCCCCACCCAAGGGGACCCTGGTCTCTCCGCCTTCACCTAGCAA TGGGAACCCTG CTTCCCAGGGGAGGAACCAACTGCTCCACCTTCTAGGGACCCAGTTTGTTGGA GTAGGACAGTAA CATGGCAGGAATCGGACTTCTGGGCCTGTAATCCCAGTTTGGATGGCACGTTA GACTCTTGGTTG ACCGTTGTGGTCCTTAGAAGTCCCATTCTCCCTTCCAGTTATGAGAAACCAATG CCTTCTAGATTC AGGTGACTATCCTTACCTGGGGGTGCTGATGCATCCTCAGTTAACCTACACCCA CCTGAATATAG ATGAGCGTAGCTGAGTTTTCACCCGTAGGACCGAAGTGTTTTGTGGTGGAGTA TCTGAACAACCT TGGCTCTGTGGCCATTCAACCTGCCAGGACTAACATTTCTGGATTTGTGAAGAA GGGATCTTCAA AGCCATTGAACCCACAGAGCTGTGTTGCTTTAAAGCCACCACAAGGGTACAGC ATTAAATGGCAG AACTGGAAAAGCTTCTTAGGGCATCTCATCCAGGGATTCTCAAACCATGTCCCC CAGAGGCCTTG GGCTGCAGTTGCAGGGGGCGCCATGGGGCTATAGGAGCCTCCCACTTTCACCA GAGCAGCCTCA CTGTGCCCTGATTCACACACTGTGGCTTTCCACGTGAGGTTTTGTTTAGAGGGA TCCACTACTCAA 3476 IGBP1 HSX2_00991063 332 GCATCAACTTCTAACTCATCTCGCCAGGAGAGGCCTCCAGTGAAACCCTTCATT CTCACTCGGAAC ATGGCTCAA 3489 IGFBP6 HSX2_00992250 333 GGCCCATGCCGTAGACATCTGGACTCAGTGCTGCAGCAACTCCAGACTGAGGT CTACCGAGGGG CTCAAACACTCTACGTGCCCAATTGTGACCATCGAGGCTTCTA 3489 IGFBP6 HSX2_02505340 334 GGCCCATGCCGTAGACATCTGGACTCAGTGCTGCAGCAACTCCAGACTGAGGT CTACCGAGGGG CTCAAACACTCTACGTGCCCAATTGTGACCATCGAGGCTTCTACCGGAAGCGG CAG 285313 IGSF10 HSX2_02487762 335 TGATGATACTGATTTATTTAATGGATCTCAAAACAAACTTTTAACTTAAGGCAC TTTTATTTTGCCA ACAAATAACAATAAACAAACATTGAAACGGTTCACTATAAAATAACAAATGGC TAATGTACCTGA ATTTTTCAGTAAAAAAATGAACTTCTAATACCAGTTGCCTAGTGTCCACCTCCTA TCAATGTTACAA GCATGGCACTCAGAACAGAGACAATGGAAAATATTAAATCTGCAATCTTTATG ATGTAAATTTACC ATCCTGATGTATAAATATTTTGTGGTTTATAAATTTTTTTGCTAAAACCTACAGA AAATAAGCACTG AACTGTCTTATGATTCACCATTTGTTCACACTGAAAATTTTCATTGATGGGGAAT ACAAAAATGTTT TAATAACTGCATTTAAAAATAAATGCAGGCTCACTTTTCCACATGTAAAAAGCA ATGTAATACCTG CACATCATAAAATGTGAAAAGGGGGTTATTTTTGTCCAAATACACCCATTAAAA AGGTTTTAAAAA TACAA 22807 IKZF2 HSX2_01567897 336 CCCGACATTGTCACCTCCTCTTTGAGGGGTTAGAAGAAGCTGAGATCTCCCGA CAGAGCTGGAAA TG 22807 IKZF2 HSX2_01567903 337 CCTCCGTTTATCTTCAGCCCGACATTGTCACCTC 22807 IKZF2 HSX2_01567916 338 CATTGCACTTTGACTATGGAAACAGAGGCTATTGATGGCTATATAACGT 22807 IKZF2 HSX2_01567953 339 GTGAACGCCCCTTCCACTGTAACCAGTGTGGAGCTTCTTTTACTCAGAAGGGCA ACCTTCTGAGA CACATAAAGTTACACTCTGGAGAGAAGCCGTTCAAATGTCCTTTCTGTAGCTAC GCCTGTAGAAG AAGGGACGCCCTCACAGGACACCTCAGGACCCATTCTG 22807 IKZF2 HSX2_01567978 340 TACCTCCTATGGAAGATTGTAAGGAACAAGAGCCTATTATGGACAACAATATT TCTCTGGTGCCTT TTGAGAGACCTGCTGTCATAGAGAAGCTCACGGGGAATATGGGAAAACGTAA AAGCTCCACTCC ACAAAAGTTTGTGG 22807 IKZF2 HSX2_01568048 341 GTAAACTGAAATGTGACGTCTGTGGCATGGTTTGCATTGGGCCCAATGTGCTT ATGGTACATAAA AGGAGTCACACTG 22807 IKZF2 HSX2_01568069 342 TAAAAGGAGTCACACTGGTGAACGCCCCTTCCAC 386653 IL31 HSX2_02379521 343 GTGGAGGAAGAGAAGGGCGTGCTCGTGTCCCAGAATTACACGCTGCCGTGTC TCAGCCCTGACG CCCAGCCGCCAAACAACATCCACAGCCCAGCCATCCGGGCATATCTCAAGACA ATCAGACAGCTA GACAACAAATCTGTTATTGATGAGATCATAGAGCACCTCGACAAACTCATATT TCAAGATGCACCA GAAACAAACATTTCTGTGCCAACAGACACCCATGAATGTAAACGCTTCATCCT GACTATTTCTCAA CAGTTTTCAGAGTGCATGGACCTCGCACTAAAATCATTGACCTCTGGAGCCCA ACAGGCCACCAC TTAAGGCCATCTCTTCCTTTCGGAT 26034 IPCEF1 HSX2_01676158 344 GTTTTCTCACGATGAGTCGGAGGAGGATATCGTGTAAAGATCTGGGCCATGCT GACTGCCAAGG GTGGCTGTATAAGAAAAAGGAAAAGGGAAGTTTCCTAAGCAACAAATGGAAA AAGTTCTGGGTG ATACTGAAGGGGTCGTCACTGTACTGGTATAGCAATCAAATG 26034 IPCEF1 HSX2_01676239 345 AATGTTACAGTGAAAGTGAACAGGAAGATCCAGAAATAGCTGCGGAGACACC ACCCCCTCCTCA CGCTTCCCAGACTCAGTCTTTG 26034 IPCEF1 HSX2_01676280 346 AAGAGACAAAAGTGTCTGAAGATGATGAAATGGAGAAGCTGTACAAATCATT AGAGCAAGCTAG TCTATCTCCTCTTGGGGACCGACGACCTTCGACTAAAAAGGAGTTGAGAAAAT CCTTTGTTAAGC GGTGTAAAAATCCATCTATAAACGAGAAACTCCACAAAATCCGAACATTGAAT AGCACATTAAAG 26034 IPCEF1 HSX2_01676301 347 TGTAAAGAACATGATCTGGCCATGATTAACCAGTTGCTGGATGACCCGAAGCT GACAGCCAGGA AATACAGAGAGTGGAAAGTCATGAACACCCTGCTGATCCAGGACATCTATCA GCAGCAGCGGGC TTCGCCTGCCCCTGATGACACTGATGACACCCCCCAGGAACTCAAGAAATCAC CTTCTTCTCCCTC TGTTGAAAATTCCATTTGAGACAAAGTCAGGGTTTTCTCCTCTT 26034 IPCEF1 HSX2_01676305 348 AAACCCAGTCCTTCAAGCATCAGCTTCCCATCTAAAGATGCACGTTAGATGAA GATAATCACCGA ATACACCAGGGCTCCTCATTTCAGTCGTAACGCATCCATTGAGATTGGAATGA TTGAGTTCAGTTG AAAGGCGTTTTTTGTGTTCCTACTGGGAGCTCACGGTGATGTGGGGCTCTAGG GGGGATGTGAG AAATGTCTCTTCTGTTCATTGCTCTCCAGAGAATGCTATGGACAAGAATCAAAT TTTACCAGGAGT AATTGCCCATGGAAACATTCTGTTTTTCAAAAGAAGAATGTACATATTCCACTT GACTGGGAAGCT GTGTGGCCCAAATCACTGTTTGAGTGGAGGAATGTTTTCTAGAGCAGTGACTG GAAGGACAAAC GTGGTGTTGCAGAACAAAAATTCCTTGCCTTTGGTATGGAATGGTGGTGCCTT TTCCATGTGATG AGAAATGCTTCATAGACAGTGGCATGTGGGAGAGCTGAAGGAGGAGGCGTG TTCCATATTCCAC TCATTCAAAGGACAGCTTGGTGTTTTCACACTTTATGCAGGTTAGGGGATCTG ATTAATGTTTCCT TTCCTTACAACAGCTAGAGAAAACATCTCATCACAATTGGAGACCTCTACTTCC TTTGAGCTTTCCT ACTCAATGGTAGGAGATAGGAATATGTTCCGCAAAGAATGTCTACTGCTCTTG TCCTTGGCTGTG ATCCCTATACATAGTGTGAATTTATATCCAGGTTTCCCAGGATCAATATTGACA AGACGACTTTGG CATCTGAATTGTTTTAATATCTTTACTCAAAAAAACAAAAAAACAAAAACCCAT GGAAGCAACAAA AGAGTTAAACATGAGGGATTTATTTTTGTATGTTTATATGTCACTTGTGTGCTA TGTGAATAGCTAT GTTTGTTATTTAAATATATTTATAGAAGTTCAAATTACTAGTGTTTAAAAGATG ATATACTATTATA TATTGTGCTTAGTATATATTTGATGAGTCTATACTTTTTGCTTGAGAAAAATAG AAATACTATTGAT TCACTGGTGTTATGATGTTGCACTGTGTCTGAGGAATGCTCAGGAAATCTTGT GGGAAAAAAATG GGGCATGCATTCATAATTTTTCATTTTCTTCCCCACCCCAACCCCCATGAGCTCT TAAATTTAGATT TCTATCTCTTGTAAGTCACTCTTTTAACCAGCAAAGGACTTTCATCTTAGATTAT CCTTTCTATTAAA TAAACTTTAAGCTTTGTGCCATTTATGCCTGCAAACCTTAGACCAAAGGCAACA CAACTAATGTCA TCTTTTCATTAAAGACTAATAGAAATTTAGAAATCATTGTGTTAAAGAGAGCTA TAGAGAAACAAT ATGAAAGTCTTCCCTTACTAATCACCATGAATATTTCTCACCATAGGAATAACC ACAACCCACCAA GTACCCATGTTGGCCCTGCCTACCCGTAACAAATTGTTCACACAACCTATTTTG TTTTATAGCTTCA AAGTGTGGCTTGACATTCAAATGGAAGGAACCACCTGAATTATATCTGCAAA CAAAATGGAAATA GTTGTTGAATAGTTCCCCAAGCTTTACTAAGAAGCCTTAATACTCTGTAAACA AACAAACAAACAA AAAACAACCTTAGCATTAAGAAATAAAAACAAAAAACAAGAAGCAAGTTGTA CTGCTAGAAACTT CTCTAAGATAAGAGGCCAGGCCAGTCAGTTTGGCCCAGCAAACATGTGGGTA CTTCTCCACCTAG GGAAGCCACTGAAGATGAGTTTGACCTGTGGTGACCTGACAGAGAGAACATT CAGATCCTCAGA TTGCACCCTGATGCCCTGGTTTAGGAAAGCAGTGCTTTAACCTTTTGCCCCTGG AAATTACTGATT CTTTCTGTGATTAGCAGATACCAGAAGGGAAATTATTTAGGATTGGCAATGTA AAGAGTATTGAA GGAACAACAAATAACAATAGCAGAAATAACAGTGTGACATAAAGTGCCCTTC CACCTATTTTTCTT TGGTTTGCAACACCAGCCTGTAGACTTCCAGTTTTTCTTAAATTGAAGAGCTCC AGACACTTTTGA GCAGGGTTTGTGAATAGCTTTGAATGCTTTCCTTTGGCTTTTCGTGAAGACATA TTTCCCCAGCCTT TCAACTGTAAACTCCTTTAGTACCATTGAAACTTAAGGCAAAAAAGATCCCTG GGATTACTTAGCC 3679 ITGA7 HSX2_01011260 349 GAGTACTCAGCTGTGAAGTCCCTGGAAGTGATTGTCCGGGCCAACATCACAGT GAAGTCCTCCAT AAAGAACTTGATGCTCCGAGATGCCTCCACAGTG 3682 ITGAE HSX2_01011786 350 TGTGGCTTTTTTAAAAGAAAATATCAACAACTGAACTTGGAGAGCATCAGGAA GGCCCAGCTGAA ATCAGAGAATCTGCTCGAAGAAGAGAATTAGGACCTGCTATCCACTGGGAGA GGCTATCAGCCA GTCCTGGGACTT 3685 ITGAV HSX2_01012164 351 AGCCTCAGACGCTGCGTGGAGCGGCGGAGCCGGAGGGAAGCAAAGGACCGT CTGCGCTGCTGT CCCCGCCCCGCGCGCTCTGCGCCCCTCGTCCCTGGCGGTCGCTCCGAAGCTCA GCCCTCTTGCCT GCCCCGGAGCTGTCCCGGG 3710 ITPR3 HSX2_01015842 352 CTGGGCACCTGCCCCACCAAGGAGGACAAGGAGGCCTTTGCCATCGTGTCAG TGCCCGTGTCTG AGATCCGAGACCTGGACTTTGCCAATGACGCCAGCTCCATGCTGGCCAGTGCC GTGGAGAAACT CAACGAGGGCTTCATCAGCCAGAATGACCGCAG 3751 KCND2 HSX2_01017841 353 CCGATCCAGTTTAAATGCCAAAATGGAAGAGTGTGTTAAACTAAACTGTGAAC AACCTTATGTGA CTACAGCAATAATAAGCATCCCAACACCTCCAGTAACCACACCAGAAGGAGAC GATAGGCCAGA ATCCCCTGAGTACTCAGGAGGAAATATTGTCAGAGTTTCTGCTTTGTAAGACA ATTGGAATAAGG TCTAAGAGAATTCGAGCCCTGGCTGTGAAAAGAATCTCAACATAGAAGAAAG AAGAAACAATAA ATATTCTGCAGATTAATGCAGCAAAGAAAGAAGGTTGGTAGTGAAACACAAA GCTTCCAATCTTA AGGATGTGAATAAAACCACCAAATGGCATTTCTAGACAGTTTGACCTGTTATA CAGAGTAATATTC TGTGGCCCTTTGACTTTGTGAATGAGCACAATGAAATGCCGCCTACTGA 8645 KCNK5 HSX2_01350094 354 GTGTGAACCCCAGCGCCAACTACCACGCCCTGTACCGCTACTTCGTGGAGCTC TGGATCTACTTG GGGCTGGCCTGGCTGTCCCTTTTTGTCAACTGGAAGGTGAGCATGTTTGTGGA AGTCCACAAAGC CATTAAGAAGCGGCGGCGGCGACGGAAGGAGTCCTTTGAGAGCTCCCCACAC TCCCGGAAGGCC CTGCAGGTGAAGGGGAGCACAGCCTCCAAGGACGTCAACATCTTCAGCTTTCT TTCCAAGAAGGA AGAGACCTACAACGACCTCATCAAGCAGATCGGGAAGAAGGCCATGAAGACA AGCGGGGGTGG GGAGACGGGCCCGGGCCCAGGGCTGGGGCCTCAAGGCGGTGGGCTCCCAGC ACTGCCCCCTTC CCTGGTGCCCCTGGTAGTCTACTCCAAGAACCGGGTGCCCACCTTGGAAGAG GTGTCACAGACA CTGAGGAGCAAAGGCCACGTATCAAGGTCCCCAGATGAGGAGGCTGTGGCA CGGGCCCCTGAA GACAGCTCCCCTGCCCCCGAGGTGTTCATGAACCAGCTGGACCGCATCAGCGA GGAATGCGAGC CATGGGACGCCCAGGACTACCACCCACTCATCTTCCAGGACGCCAGCATCACC TTCGTGAACACG GAGGCTGGCCTCTCAGACGAGGAGACCTCCAAGTCCTCGCTAGAGGACAACT TGGCAGGGGAG GAGAGCCCCCAGCAGGGGGCTGAAGCCAAGGCGCCCCTGAACATGGGCGAG TTCCCCTCCTCCT CCGAGTCCACCTTCACCAGCACTGAGTCTGAGCTCTCTGTGCCTTACGAACAG CTGATGAATGAG TACAACAAGGCTAACAGCCCCAAGGGCACATGAGGCAGGGCCGGCTCCCCAC CCCACCTTTGAT GGCCTCTTCCCCCCTCACCCTAGGGTGTCCCGAGATGACCGGGACGCCTGGCC CCTGGTGGGGG GGCAGCCTCGGAACTGGGAGTGGGGGGCCAGGGGCCTTCCTAACCTTCCATC ATCCTC 8909 ENDOU HSX2_01371797 355 TGGGATTCTTACCCCGATGTGCTGGCAATGCAGTTCAACTGGGACGGCTACTA TAAGGAAGTGG GCTCTGCTTTCATCGGCAGCAGCCCTGAGTTTGAGTTTGCACTCTACTCCCTGT GCTTCATCGCCA GGCCAGGCAAAGT 23081 KDM4C HSX2_02542306 356 AAATGCATCTTCTGCAGACACCGGGTTAAGAGGGTCTCTGGAGCCTGCATCCA GTGTTCCTACGG TCGCTGCCCGGCCTCCTTCCATGTCACTTGTGCCCATGCTGCTGGGGTACTGAT GGAGCCTGATG ACTGGCCTTATGTGGTGAACATTACATGCTTTCGACATAAGGTCAACCCCAAC GTG 90231 KIAA2013 HSX2_02132945 357 ATCCCAGTGTCTGAGTGAACTAACAGTCCTGCTTTCAGCCACCATTTGCACAAG ACACCCAGCACT GAAAGTCCCGCTGCCAGGAGCAAGGGATCCTTTGGAAGCACCCGCCCTTTGT GCCTTGTTGGGG GAAACCGGTGACGCAGAAGTGAGTGTGGATACACCAGAGTTTGCATTGGAAG GAATGAGTGTCA CGTGGGGAGGGAAGGGGCCAGTGGACCTTTTGTAAGCTTTCCACTCAATAAA ATGAACCTGTAT GGCAA 55220 KLHDC8A HSX2_01840918 358 GGGGATGGCTGAAGATGGAACGATCGTTCTTCCTCAAGAAGCGGCGGGCAG ATTTTGTGGCTGG CTCTCTGAGTGGACGGGTCATAGTGGCTGGGGGACTTG 5655 KLK10 HSX2_02514669 359 ACCAGCGGCAGACCACAGGCAGGGCAGAGGCACGTCTGGGTCCCCTCCCTCC TTCCTATCGGCGACTCCCAG 5650 KLK7 HSX2_01154792 360 TGAGTACACCGTGCACCTGGGCAGTGATACGCTGGGCGACAGGAGAGCTCAG AGGATCAAGGC CTCGAAGTCATTCCGCCACCCCGGCTACTCCACACAGACCCATGTTAATGACCT CATGCTCGTGAA GCTCAATAGCCAGGCCAGGCTGTCATCCATGGTGAAGAAAGTCAGGCTGCCC TCCCGCTGCGAA CCCCCTGGAACCACCTGTACTGTCTCCGGCTGGGGCACTACCACGAGCCCAGA TG 5650 KLK7 HSX2_01154804 361 GGTGACTCAGGGGGACCGTTGGTGTGCAGAGGTACCCTGCAAGGTCTGGTGT CCTGGGGAACTT TCCCTTGCGGCCAACCCAATGACCCAGGAGTCTACACTCAAGTGTGCAAGTTC ACCAAGTGGATA AATGACACCATGAAAAAGCATCGCTAACGCCACACTGAGTTAATTAACTGTGT GCTTCCAACAGA AAATGCACAGGAGTGAGGACGCCGATGACCTATGAAGTCAAATTTGACTTTA CCTTTCCTCAAAG ATATATTTAAACCAACCTCATGCCCTGTTGATAAACCAATCAAATTGGTAAAGA CCTAAAACCAAA ACAAATAAAGAAACACAAAACCCTCAGTGCTGGAGAAGAGTCAGTGAGACCA GCACTCTCAAAC ACTGGAA 79875 THSD4 HSX2_02028559 362 AACTACTACAAGACCGCCTGCTGTGCCTCCTGCACCCGTGTGGCCAACAGGCA GACGGGCTTCCT GGGGAGCAGATAACACTCCTGCACCCCCATCAGTAGGGCAGCATCACTGCCTT CCCGGGGGCTT CAGCAGTGCGCCTGGCTGGCTGCTGCTCCACCACGGGCCCCCTGGCCCAGGC GCTGCCAACCAA CTTAGTCACCACCCCTGCCTCCGGTGAATGCACCCCGTGGTACCCAGGGGCTT TTTACACAAGAT GTTTGAAAGCCACAGTCAGTCCTTTAAGCATCACCATGTACTGATGATCCCCTC CTTGGACCTGGC ATCTGCTAATGGTGCCCTTTGAAAGTCAAGCAGTGGGAAGTACATGGAGCTCT CAGCCCTGCTCC CATCTGGCACCTTCAAGTCAGCAGATGGGCCACTGACTGAGCACTGCCCCGTC CCTGGTGCTACT GGTCTTTCTAAACTTAGCACCCTGGAGAGTCCAAGGAGGCAGCGCCCCCAACC CAGCGCCCCACT AAGCCTTGCTGACACGCGTGCATCCCTCTGTGACCTCAGCCCAGATGTGCCTG TTTTCATTCTCAA AGACATTAGACTGTTTTCCTGCCCTATGACACAGATAGCTCACATGAATATTGT GCTTTATTTAGC AGGTGTACTCACAGATACTAGCTCCTTAGCAGCTCACAACATCCCAGAATGGG AGGCAGGGGGT GACTCATTATCCCCATTTTACTGACAGGGAAACTGAGGCTCAACTTAAGTAATT GACCTGCCAGGT ATATTCACCCATCCAGTGGAAGAGCTGAGTCCCCGCCCCAGTCATCTACCAGT ATCCAGCCTGGG GCCTGTACTTAGATGTGAAAGGTGCTGCTTCATTTCTGACCAAGAGACTGAGA AGTTTCCCAGAA TGCAAACAAAGCCCAGGCCCCTGAAATCTTTCCGGTCAAGCCTTTATCCCAGC ACTCAGTTGTTTT GGATGTCTGTTCCTACTTGCCCTTACCCCCAAAGTTACAGATCCTAGTTACAGG ACTCTGCCAGCT TTGTTAAACTGTCCGTGAGACAAGAAAGCCATTGGGGAAACCAGGTGATTGC CTGAAATTCTTAC TCCGTTCCAAGTGCTGTTCCTCCCAGGAAATCAAAGGCCAGGGTCCTTATGGC CGTGGAGCCTTC CCGACCACAGAGCCAACTTGTGAAGCACACAGCTCTGCAGCCTGGGCTCTGCC CTGCCTCAGCCG CCTCCCCCACGCTCTTCACCACGTTCCTGGAGAGTCCGGCCAACCTGTCCCAGC CGAAACACTGCT GTATTAGAAAAAGTCTCTTTCTGGTCTTTCTGGTTTTGTTTATGAATTTCCCTCT GTGGCCACAAAT TCCTCCCCTCCCCCATGACTCACAGTCCATATGGCCCACCCCCAGACTTGAGCA CCAAGCTCTGCA TTAATGCAGTTGGCCTGCGACAAGGAGCTGTGGACCCTTCCCCATCTCTTCCA ATTCACTTTCCCC AACTATCCAGTTCCAGAGGCCGCAGGCCTGGAAGGATGCAGTGCATATTGAA AGGTGGACCCTC TGAAAACAGTTAAGAGGAATATATGTATGTTTTACCCATTAAGAAAAAATGGC AAGCTAAACAAA TGTTAAACTTACAGAAAATTTGTCTTATGGTCCTGAGCATATTTCCCTTTTAGA GCAAGCCTGGATT CTTAGCAAAGTGTTTCCCCCATTTGCTCTTTTAGCTGACAAATCTGCCACTGTG ATGATGGTTTGCA GCTTTTGGAAGCAGTATGGCAACCTGGCCTGACATGCTCTTTAGGCTTCCACT AACCTGGGGCTTT CAGAAATTCTATTTGGCCTTTCTGTGGGTAGCTTTCCAGCTTCTCTTCTAGGGA GCCCCAGGCATC ATTTCCCAAAAGCATCCCCATCTCCTGATTCTCTTGGAACTCCTACAGATAAGC ATCCTGGCAGAG GCCCAGGCTCCCAAACCGACAAAGTGAAAAGAGACCAGAGAGGCCAAGCAT ATTGACTGGTGCT GTTCAGGGCCTGCTCTTTTCCACTCACCACTTGTTTTGCTGCTTGTCACGAGGA GAGTTGTTCCTG TATGTGGCTGCTCTCAGATCTTTCCAAGCAAGCCAGTCATTTGAAGAGGTTTTC TTTTCATGCTGG AGGGCAGGCTAAGATCAATGAGTGGAAGAGAGAAAGGCTGTTTTAGCTCAA GTTAAAGGAACAC 23355 VPS8 HSX2_01628191 363 GAGAGTGATGGGAGTGAGAACCTGTGAATCTAGATGTCTGTTCAGTGGTTCC AAGGGTGAAGTC TGCTGTATTGAGCCTCTGCATTCTAAGCCTGAGTTGAAAGATCATCCCATCACA CAGTTTTCATTAT TGGCCATGGCATCCTTGACAAAA 23355 VPS8 HSX2_01628350 364 AGAGTGGATCATCTCCTGAAACAAGATTGTCTTACAGAAGCGTTGGCTCTTGC GTGGTCTTTCCAT GAAGGAAAAGCAAAAGCAGTAGTGG 7462 LAT2 HSX2_01300472 365 GAGCCAAGGCAAAGAGGGACCACTGTGCTCATGGACCCATCGCTGCCTTCCA AGGACCATTTCCC AGAGCTACTCAACTTTTAAGCCCCTGCCATGGTTGCTCCTGGAAGGAGAACCA GCCACCCTGAG 286256 LCN12 HSX2_02348587 366 AGGCCAGCACTGTGACACATGGTCTTATGTGCTGATACCGGCAGCCCAGCCTG GGCAGTTCACTG TGGACCACGGTGTGG 3977 LIFR HSX2_01034760 367 GGGCTCCTCATGATTTGAAGTGTGTAACTAACAATTTGCAAGTGTGGAACTGT TCTTGGAAAGCA CCCTCTGGAACAGGCCGTGGTACTGATTATGAAGTTTGCATTGAAAACAG 200879 LIPH HSX2_02286232 368 ATTTACATGATCGGAGTAAGTCTAGGAGCCCACATATCTGGGTTTGTTGGAGA GATGTACGATGG ATGGCTGGGGAGAATTACAG 200879 LIPH HSX2_02286275 369 GATTTCAGTATTTTAAATGTGACCACCAGAGGTCTGTATACCTGTACCTGTCTT CCCTGAGAGAGA GCTGCACCATCACTGCGTATCCCTGTGACTCCTACCAGGATTATAGGAATGGC AAGTGTGTCAGC TGCGGCACGTCACAAAAAGAGTCCTGTCCCCTTCTGG 200879 LIPH HSX2_02286297 370 GCTATTATGCTGATAATTGGAAAGACCATCTAAGGGGGAAAGATCCTCCAATG ACGAAGGCATTC TTTGACACAGCTGAGGAGAGCCCATTCTGCA 200879 LIPH HSX2_02286330 371 GCCTCAGCTGTGTCGGTATGATCTTGTCCTGATGGAAAACGTTGAAACAGTCT TCCAACCTATTCT TTGCCCAGAGTTGCAGTTGTAACTGTTGCCAGGACACATGGCCATAAATAATA GAAAGAAAGCTA CAACCACAGGCTGTTTGAAAGCTTCACCTCACCTTTCTGCAAGGCAGAAAAAG TATGAAAAAAAC CAAGGCTTTTTTCAGTAGCGTCCTATGGATGTCACATTGTACATCAAACAACCT TGTGATTATAAA ACGATCCTGGGAAGGAGCCCCTAACTAGGGCAAGTCAGAAATAGCCAGGCTC GCAGCAGCGCA GCGCTGTGTCTGCTGTGTCCTGGGGCCTCCCTTGTTCCGACCTGTCAATTCTGC TGCCTGTCACGC GGGTGGTTCTGCCCATCGCGGCTGCGGGTCAAGCATCTTCAAGGGAAGGACG GACTGGAGGCCT CACCGTGGACTCAACTCTGCATTCTCCGTGCCACATTCCTCCAGTTCCCACACG TAGAAGGGAAC GAAACTGACGTCTACCTCATGGGGCTGCTGTGTGGGTTTGGGAGGCAAAAAT CTATGAAGGGTT TTTTGAAATCCCATAGGTGCCACATCTATGAGATGTTTGATAAATGTGAATATG CTTTTACATTTG GGCTTATCTAATTTGCAATAAGAGAGCCTCTCTCTATCAACACCAGCTTCTCTC TCGGGCTGTTTG CTCAGGGAAGGCAAGAAAGCCACGTGCTGGCCCTCTGCCTTCTCTAAAGTGCT GTTGGAGCATG GAGGAGCTGGAGGAGATGGGGATGGACTGACAGCTAAGAGGGCGGCTGCT GGGACTAGATAG TGGATGAAGAAAGAAGGACGAGGAAGCCGTGGGGCAGCCTCTTCACATGGG GACAGGGGATG GAGCATGAGGCAAGGGAAGGAAAAGCAGAGCTTATTTTTCACCTAAGGTGGA GAAGGATCACTT TACAGGCAACGCTCATTTTAAGCAACCCTTAAGAAATGTTTATGTTTCTTTATT ACCAATGTAATCT ATGATTATTGAAGGAAATTTAGAAAATGCGTAGATACAA 200879 LIPH HSX2_02580660 372 GCAGAAGGAGCTTCTCTTGATGACATTTACATGATCGGAGTAAGTCTAGGAGC CCACATATCTGG GTTTGTTGGAGAGATGTACGATGGATGGCTGGGGAGAATTACAG 4000 LMNA HSX2_02507428 373 GTGAGTGGTAGCCGCCGCTGAGGCCGAGCCTGCACTGGGGCCACCCAGCCAG GCCTGGGGGCA GCCTCTCCCCAGCCTCCCCGTGCCAAAAATCTTTTCATTAAAGAATGTTTTGGA ACTTT 55164 SHQ1 HSX2_01835838 374 GAATTTTTACCATTCGCCTGCCCAAAGAAACCCCTGGCCAGCATTTTGAGGGG CTGAACATGTTA ACTGCTCTTCTGGCACCAAGAAAATCCAGGACAGCAAAACCACTTGTGGAAG 55164 SHQ1 HSX2_02556484 375 GAATTTTTACCATTCGCCTGCCCAAAGAAACCCCTGGCCAGCATTTTGAGGGG CTGAACATGTTA ACTGCTCTTCTGGCACCAAGAAAATCCAGGACAGCAAAACCACTTGTGGAAGA AATAG 23211 ZC3H4 HSX2_01609614 376 GAACTATGGAGGCCGCGCCCGGGACCCCCCCGCCGCCGCCATCAGAGTCGCC GCCGCCGCCATC GCCGCCGCCGCCATCAACGCCTTCGCCTCCTCCGTGTTCCCCCGACGCCCGCCC GGCCACCCCGC ACCTCCTCCACCACCGCCTCCCGCTCCCTGACGACAG 100509091 LOC1005090 9HSX2_02468543 377 ACAAGTGCCCTTGAATTCCATCTGTGACATGCGCGTGGCTCAGGACTCCAACC TTACCTCCACACA CCTGGAGAACAACCTCATTGACCGGCGCCGCATCCCGCCCACTGCCTTCTCCT GCACCCGAGCCT ATCACAGCGTGGTCCTCCAGCCCCAGCGGCGGGGGGAGGAGGGCTCCTAGTC CTGCCTGCCGCC TTCCTCCAGCACACACTCTGCTTCTCGAGGGGGTGGAGGGGCAGGCTGAGGT GTGCTTGGCCTTT GCACCACTGGGAGAAAGGTCTAGAAGACCCCACTGCTTCCAGTGCACCCACTT CCCATTGACTGG TGAGGCCGCTTCACTTAGCAAATGGCCCAGGGGCGAAAGGTGGCACTGGTTT GTACTTGAACAT AATAAATGCAGCTTGGGCAGGCTCACCAGCCAGCCTCCCTCCCTCCAGGAGCT ACGCTGCATGTC CTGGC 9697 TRAM2 HSX2_01428829 378 GTTCAGTGCCTGGGCTGCTGTTTTTGGGGTTACCCGCCTCTTCATCCTCACCCT TGCCGTGCTGGC CATTGGCTTTGGACTGGCTCGCATGGAAAACCAGGCATTTGATCCCGAGAAA GGGAACTTCAACA CTTTGTTTTGCAG 23248 RPRD2 HSX2_01614852 379 TCGAGGACAGGAAGGAAAAACCTGCAGAGAAGTCAGCTGTATCCACTTCTGT ACCTACAAAGCC AACAGAAAATATCTCAAAGGCCTCTTCATGTACCCCAGTGCCTGTGACCATGA CAGCAACTCCAC CTCTTCCAAAGCCTGTGAATACTTCTCTTTCCCCTTCCCCAGCATTGGCTTTGCC AAACCTGGCTAA TGTGGATCTGGCAAAGATCAGTTCCATCCTTAGCAGTTTAACATCAGTCATGA AAAATACTG 23248 RPRD2 HSX2_01614881 380 GGGTCAGTCCTGCATCAAGACCTTCTCCAGGAACGCCCACCAGCCCCAGCAAC CTCACCAGTGGC CTGAAAACACCTGCACCTGCCACGACAACATCTCACAACCCTCTGGCAAATATC CTCTCCAAGGTG GAGATCACCCCAGAGAGCATTCTGTCTGCACTTTCCAAAACCCAGACACAGTC AGCCCCTGCACT GCAAG 23248 RPRD2 HSX2_01614918 381 CCAAAAGCTTCAACTATTCTCCTAACTCATCAACTTCTGAAGTCTCTTCAACTTC AGCCAGCAAGGC CTCAATTGGGCAAAGCCCAGGGCTCCCAAGCACTACTTTTAAACTACCTTCCAA CTCTTTGGGGTT TACAGCTACCCACAATACTAGCCCTGCTGCCCCACCTACTGAAGTTACCATCTG CCAATCTTCAGA GGTCTCCAAGCCAAAGCTGGAGTCAGAGTCCACCTCCCCAAGCCTGGAAATG AAGATTCACAACT TCTTAAAAGGTAATCCTGGTTTCAGTGGCTTAAACTTAAACATCCCAATCCTGA GCAGTTTGGGGT CCAGCGCCCCATCAGAGAGCCATCCCTCAGACTTCCAGCGTGGCCCTACTAGC ACCTCAATCGAC AACATTGATGGAACCCCTGTACGGGATGAACGGAGTGGGACACCCACCCAGG ATGAGATGATGG ACAAGCCCACATCCAGCAGTGTAGATACTATGTCCCTGCTTTCTAAGATCATTA GCCCTGGTTCCT CAACACCCAGCAGTACAAGATCACCACCCCCTGGGAGAGATGAAAGCTACCC CCGAGAGCTCTC CAATTCTGTATCTACATATCGACCCTTTGGTCTGGGCAGTGAATCTCCCTATAA GCAGCCTTCTGA TGGAATGGAGAGACCATCTTCCCTGATGGACTCTTCACAGGAAAAGTTCTACC CAGATACTTCTTT CCAAGAAGATGAGGATTACCGAGATTTTGAGTATTCAGGGCCTCCACCCTCTG CCATGATGAACC TAGAGAAGAAACCAGCCAAATCTATCCTGAAATCAAGCAAGCTGTCTGATACC ACCGAGTACCAG CCAATTCTGTCCAGTTATAGCCACAGAGCCCAAGAATTTGGGGTAAAGTCTGC CTTCCCTCCATCT GTAAGGGCCCTCCTGGACTCTAGTGAGAACTGTGACCGTCTCTCATCTTCCCCT GGGCTATTTGGT GCCTTCAGCGTAAGAGGGAATGAACCTGGGTCTGACCGGTCACCATCACCGA 23248 RPRD2 HSX2_01614922 382 GTAAGAATGATTCATTTTTCACCCCTGACTCCAACCACAATAGCTTGTCTCAAT CTACCACTGGGC ATCTCAGTTTGCCACAGAAGCAGTACCCAGACTCTCCTCACCCAGTCCCACATC GTTCCCTTTTCTC TCCGCAG 23248 RPRD2 HSX2_01614923 383 AACACCCTTGCCGCTCCCACGGGTCACCCACCCACGTCAGGCGTGGAGAAAGT CCTGGCCTCCAC CATTTCCACCACGTCGACGATTGAATTTAAGAATATGCTTAAAAACGCCTCACG TAAGCCCTCAGA TGATAAGCATTTTGGCCAGGCTCCCAGCAAGGGCACTCCAAGTGATGGTGTCA GTCTCTCAAACC TCACCCAACCCAGCTTGACCGCCACTGATCAGCAGCAACAAGAAGAGCACTAC CGCATAGAAACC CGCGTCTCCTCCTCCTGCTTAGACTTGCCTGATAGCACAGAAGAAAAGGGGGC CCCTATAGAAAC CTTGGGTTATCACAGTGCATCCAATAGGAGGATGTCAGGGGAGCCGATCCAG ACCGTAGAGTCC ATCCGAGTTCCTGGGAAGGGAAATAGAGGACATGGGCGTGAGGCTTCAAGG GTGGGTTGGTTT GATCTGAGCACATCAGGTAGCTCTTTTGACAATGGCCCTTCAAGTGCCTCTGA GTTGGCATCCCTT GGGGGTGGGGGCAGCGGAGGCCTCACTGGCTTTAAAACAGCACCATACAAG GAACGGGCACCT CAATTTCAGGAGAGTGTCGGCAGCTTTCGTTCCAACAGTTTCAACTCAACATTT GAGCATCATCTT CCCCCATCCCCCTTGGAACATGGGACACCCTTCCAGAGAGAGCCAGTGGGGC CATCATCTGCCCC ACCTGTCCCTCCTAAGGATCATGGTGGTATCTTCTCTCGAGATGCACCCACTCA TCTACCCTCTGT GGATCTTTCGAACCCCTTCACAAAGGAGGCAGCCCTGGCCCATGCTGCCCCAC CCCCTCCTCCTG GAGAGCACAGTGGAATTCCTTTCCCTACCCCACCTCCTCCTCCCCCTCCTGGGG AACATAGCAGCA GTGGTGGGAGTGGTGTCCCCTTTTCTACTCCACCCCCTCCTCCACCCCCTGTTG ACCACTCTGGAG TTGTACCCTTCCCAGCCCCACCACTGGCAGAGCACGGAGTGGCAGGGGCTGT GGCAGTATTTCCC AAGGACCATAGTTCCCTCCTTCAAGGGACCCTGGCTGAGCATTTTGGGGTACT CCCAGGACCCAG GGACCACGGGGGCCCCACCCAACGGGACCTCAACGGCCCTGGCCTTAGCCGT GTACGAGAGAG CCTCACCCTACCCTCCCATTCTCTGGAACACCTGGGCCCACCCCATGGAGGAG GAGGTGGGGGA GGCAGCAACAGCAGCAGTGGCCCCCCCTTGGGTCCCTCACACAGAGACACCA TCAGCCGGAGTG GTATAATCTTACGGAGTCCCCGGCCAGACTTTCGGCCTAGGGAACCTTTTCTCA GCAGAGACCCA TTTCACAGTTTAAAGAGACCCAGGCCACCTTTTGCTAGGGGCCCTCCGTTCTTT GCACCAAAACGC 84561 SLC12A8 HSX2_02103940 384 ATTTCTTCCTGAAGTCCAGGCTCCAAGAACAAGATGTCTGGAGAAGATCCACT TCTTTCTATACCC ACATGTGCAACCCCTGGGTCTCCCTGTTGGGG 54532 USP53 HSX2_02554222 385 ATTGGAACTAGATGGAAAGATGTTGTCTCCAAATGCATTCGATGCCACTTTCA GCCACTACTTTTG TTTTATGCAAACCCAGATGGCACAGCAGTTTCTACTGAGGATGCACTCAGGCA GGTCATCAGCTG GTCACATTACAAATCTGTTGCAGAAAATATGG 285180 RUFY4 HSX2_02341096 386 GTCACGCTGCTCCAGTTCCACCCAAACCCAGGGAAGGAGACCCAGAAAAAAC AAAGATGCCCCA AAGAAG 164832 LONRF2 HSX2_02269570 387 GTAATGTGTGAAGTGCTGTTTTCAGCTACAGCAAATGTGCATGAAAATTTAAC ATCTTCCATCCAA AGCAGATTAAAGGCTCAGGGTCACAGCCACATGAATGCCCAGGCTCTGCTGG AAGAAGGTGATG CAGGGAGCTCGGAG 164832 LONRF2 HSX2_02269581 388 AATTCATCTGAGAAATCTGATATGCTTGGAAATACCAATTCTTCAGTTTTGTAT TTTATACTGGGTC TACACTTTGAAGAGGATAAAAAGGCGTTAGAAAGCATCCTTCCAACAGCACCC AGCGCTGGCTTA AAGAGACAGTTTCCGGATGACGTGGAGGATGCACCTGACCTGAACGCCCCTG GAAAAATTCCCA AGAAAG 164832 LONRF2 HSX2_02269589 389 ATCTCTCACTTCAAAGGAGCCCAAACTCTGAGACAGAAGAAAGTCAGGGGCT CTCGCTTGATGTA ACTGACTTTGAGTGTGCCCTCTGCATGAG 164832 LONRF2 HSX2_02269599 390 ATTGCTCTTTGAACCTGTCACTACGCCCTGTGGACACACATTTTGCCTAAAATG CCTTGAGCGCTG CCTTGACCACGCCCCACACTGTCCTTTGTGCAAAGACAAACTTTCGGAA 164832 LONRF2 HSX2_02269630 391 GCTTTCAGAGTATGGATGCATGCTGGAGATTAAGGACGTGAGAACGTTTCCT GATGGAAGTTCTG TTGTAGACGCGATTGGCATCAGTCGGTTCCGAGTGCTAAGCCACCGCCACAGA GATGGCTATAAC ACAGCGGACATTGAATATCTTGAAGATGAAAAG 164832 LONRF2 HSX2_02269640 392 GTGGAGGGTCCAGAGTATGAAGAACTTGCCGCTCTCCACGATTCTGTGCATCA ACAGTCTGTTTC CTGGTTCGCGTCTCTCCAGGATCGCATGAAAGAACAAATTTTAAGTCATTTTG GGGTAATGCCAGACAGAGAACCTGAGCCTCAG 164832 LONRF2 HSX2_02269652 393 ATTGAGTCCTCCTCAAAAATGACAATTCTGTGTCTGGTGGGATCTGACCTTGTG TGAGGTTAGCCT GAAGTCTGAATGGAGCCCATAGTTGGAAAACAACCTAAGAAAATCTCTTAGA AGCAGGTGCTTG GGGAATGCAGTTCACTGACAGCACAGGACCCTGCAGATGGTTTACATGTGGT TTGGGTTTCACGA GAAAGAAGGATTCACTTCCCAGTCAGCATCTGGCTCTGCCAGATGGTAAAGG CGTGCTTTAGTGT GTAGACAATATGGGGGAACCACGTTTTTATCTGGAAGTGGATTTCTTAGAACA CAGGCTAACCAA AACTACGCTTAGGCTTTGCGTGTTGCTGTGAAGTTGTCTGTGAAATCGAATAA TCACACCATTGTT CAGTGCAGGAGCCCAAACTAGTCCTTACCCAAGAAGTAGTAGCCTCTGGATA GAACTGTGTTTAA TGTCCTGTTGTAGTCCCAGGTGTTGTAAATTGCATGTTGTAATCAAACGAATGT CAAAACATAAGA AAGTATACCTTGGATATAGAAAAACCTGAGAACAGTATCATTCACTTGAGGAT ATATATATATATA TTTACACACAATAAAGTGAGTTAAAATTGTATATGCATTGGGATGTCAAACAT AAAACCACCAAGT GCAAAGAATGCTTTGAAAGTAGAACCTTGTCTCATTGATCAGTGGTTACTAAG CATTTAGGAAAC AGTCATCTTTTTCTATTGGGATTTGCATTAGAAATTAGCCCCATCAGTAAATTTC AGTTTACTATCC ATTTATTAATATACAAAAACATTAAAAAATCTGCCATGCCATGGTAATCTATCT ATTCCAGGAAAAT AGATCAGAATATATGAAGGGAGGATGGCCGGTATGGGATGTAAATATTCAGT AAGTTTTTCTCCA ACACCAACCTAAAATTATCTTTATTTTTTTGAAAGAAAGTTTTACGGTGATCAG ACCAGGTGTTATC TGTTAAAGGACAGTAGTATGACTTCCATCCTGTAATGCACGTTGGTGATATTG ATTGGAATAACTG AATCTGAGATACTCATATGTTCTCTCTGGCCCAACCAGCTGGTGCATTTGGTTG GCTTCCTCGTCT GTAAGGTGGACATTCTTAACCAGAGGGTCACGACCACATCACAGCTGCAAGTT TTGCTTTGTTCAT TGAAGGTGATTTTTTAGTTTTAAAATATATATATCTCATAATATACAATGTTGAT GGTATATCAATC CATCAAGCATTTTATTAGAAAGACTTTATAATATTATTAATTTTTCTTTAGTTTTC AGTAGATAAAGT AGTTTCAGTAGATAAAGACTTTATAATATTATTAATTTTTCTTTTAGTTTTCAGT CTCATCATGGGA GTTAGAAAATACCAGCATCACTTAATTGTAAAGAGAAAATGTGAAAGTATTTT CCAATCCAATGTT TCAAGTGCCTCACTTATTGTGAATCTCAAATATCATCTTGAGATGGTTTAATGG CAGTTTGGCCAA GTGATTTCTAAGAGATTTTATTAATTTATGCATTAACAATAGTATTCAACTTTCT TAGGCATTATAA CCTAACCCGATCATTTGATTGGAATAACTGAATCATTCATTGATTGGAATAAAA TAAAGAAAACAA AATGCATCTCACATGCCAGAAGACCTTTACCAGAAGTGGTTCATGAAAATCAG TATGCATTGACC ATTCTCTGCCTTTCCCTTTTGGAAAATTTTTTTGTACCTTCATATCACAGCTGAA TAGTTATCAATGC CATTTCCATTTGGAAGTATCTAAATAACCACAATGTGATCACAGCTTCTCCACG AGCCTTCCTGAA GTAAAGCTGGTATGCTTGCTATAATACTTGGAACCTGTTGCTTTCTCTTCCTCA CTCTTTAAATGTC ATAAGGTCACACAGTTCTTGGAATCAGAACTATTCAGTTATTTCTTCATGATTC TGCCTGGCTTTCT GAGTCTTCTCCTTCGGCATGTTATGTAAAAGTCTGAACAACAATGATGACGCA GACGAGAGCAAC ATACGTTTTTATTTTTTGATAGGTTTTTATTTTTTTGATACCAGAGGGAATTAAC TATGATCACATC GTGCTCTCTCTGTTCAGCATCACACGCCCACATACTGCAGTGTGGGAGTAGAT TGGTACTTACTGA GCACTTAGAAACATCACGCATCAGGAACCGGGTCAGGGTGACAGCATCCTAC GGTCATATCATG 57121 LPAR5 HSX2_01910604 394 AGCAACACGGAGCACAGGTCTCTGCTGCTGATGA 4038 LRP4 HSX2_01040417 395 GGCCAGAGCCTGTGCTGCTGTTCGCCAATCGCATCGACATCCGGCAGGTGCTG CCACACCGCTCT GAGTACACACTGCTGCTTAACAACCTGGAGAATGCCATTGCCCTTGATTTCCAC CACCGCCGCGA GCTTGTCTTCTGGTCAGATGTCACCCTGGACCGGATCCTCCGTGCCAACCTCAA CGGCAGCAACGTGGAGGAGGTTGTGTCTACTGGGCTGGAGAGCCCAG 4038 LRP4 HSX2_01040427 396 TACCATTTACTGGACAGACTGGGGCAACACCCCCCGTATTGAGGCCTCCAGCA TGGATGGCTCTG GACGCCGCATCATTGCCGATACCCATCTCTTCTGGCCCAATGGCCTCACCATCG ACTATGCCGGG CGCCGTATGTACTGGGTGGATGCTAAGCACCATGTCATCGAGAGGGCCAATC TGGATGGGAGTC ACCGTAAGGCTGTCATTAGCCAGG 4038 LRP4 HSX2_01040469 397 TGTCTACACCATGTGCTATGGAGAATGGCGGCTGTAGCCACCTGTGTCTTAGG TCCCCAAATCCA AGCGGATTCAGCTGTACCTGCCCCACAGGCATCAACCTGCTGTCTGATGGCAA GACCTGCTCACC AG 4038 LRP4 HSX2_01040499 398 GTTTTAACAAGTGCGGCTCGAGAAATGGCGGCTGCTCCCACCTCTGCTTGCCT CGGCCTTCTGGC TTCTCCTGTGCCTGCCCCACTGGCATCCAGCTGAAGGGAGATGGGAAGACCTG TGATCCCTCTCC TGAGACCTACCTGCTCTTCTCCAGCCGTGGCTCCATCCGGCGTATCTCACTGGA CACCAGTGACCA CACCGATGTGCATGTCCCTGTTCCTGAGCTCAACAATGTCATCTCCCTGGACTA TGACAGCGTGG ATGGAAAGGTCTATTACACAGATGTGTTCCTGGATGTTATCAG 4038 LRP4 HSX2_01040509 399 GTACCTCTTCTGGACAGACTGGGGCCACATTGCCAAGATCGAACGGGCAAAC TTGGATGGTTCTG AGCGGAAGGTCCTCATCAACACAGACCTGGGTTGGCCCAATGGCCTTACCCTG GACTATGATACC CGCAG 4038 LRP4 HSX2_01040514 400 GATCTACTGGGTGGATGCGCATCTGGACCGGATCGAGAGTGCTGACCTCAAT GGGAAACTGCGG CAGGTCTTGGTCAGCCATGTGTCCCACCCCTTTGCCCTCACACAG 4038 LRP4 HSX2_01040519 401 CAAGACAGGTGGATCTACTGGACAGACTGGCAGACCAAGTCAATCCAGCGTG TTGACAAATACT CAGGCCGGAACAAGGAGACAGTGCTGGCAAATGTGGAAGGACTCATGGATA TCATCGTGGTTTC CCCTCAGCGGCAGACAG 4038 LRP4 HSX2_01040529 402 TGCCTGGCCTGGTACCACCAGCTCCTAGGGCTACTGGCATGAGTGAAAAGAG CCCAGTGCTACC CAACACACCACCTACCACCTTGTATTCTTCAACCACCCGGACCCGCACGTCTCT GGAGGAGGTGG AAGGAAG 4038 LRP4 HSX2_01040534 403 ATGCTCTGAAAGGGATGCCAGGCTGGGCCTCTGTGCACGTTCCAATGACGCT GTTCCTGCTGCTC CAG 4038 LRP4 HSX2_01040539 404 GGGAAGGACTTCATATCAGCTACGCCATTGGTGGACTCCTCAGTATTCTGCTG ATTTTGGTGGTGATTGCAGCTTTGATGCTGTACAG 4038 LRP4 HSX2_01040549 405 CTGGGGATGATGCTGAGTGGGATGACCTCAAGCAACTGCGAAGCTCACGGG GGGGCCTCCTCCG GGATCATGTATGCATGAAGACAGACACGGTGTCCATCCAGGCCAGCTCTGGC TCCCTGGATGAC ACAGAGACGGAGCAGCTGTTACAGGAAGAGCAGTCTGAGTGTAGCAGCGTC CATACTGCAGCCA CTCCAGAAAGACGAGGCTCTCTGCCAGACACGGGCTGGAAACATGAACGCAA GCTCTCCTCAGA GAGCCAGGTCTAAATGCCCACATTCTCTTCCCTGCCTGCCTGTTCCTTCTCCTTT ATGGACGTCTAG TCCTTGTGCTCGCTTACACCGCAGGCCCCGCTTCTGTGTGCTTGTCCTCCTCCTC CTCCCACCCCAT AACTGTTCCTAAGCCTTCACCGGAGCTGTTTACCACGTGAGTCCATAACTACCT GTGCACAAGAAA TGATGGCACATCACGAGAATTTAGACCTGGATTTTACCATGAACCTCACATCTT GTACTCCATCCT GGGCCCCCTGAAACTGCTTATTCGTGATTCCTCACCAGCGTAGAGCTCCACCTC CCCTTTCCCCAG TACCCTCAGTGCCTGCTTCTCAGTGCTGATGCAGCTGATGACCCAGGACTGCG CTCTGCCCCATCA CAGCCAGCATGACTGCTTCTCTGAGAGAACTTGCCCATCAGGGGCTGGGACAT GGGGGTGTGGG TAAAGACAGGGATGAAGGATAGAGGCTGAGAGAAGAAGGAAGAATCAGCCC AGCAGGTATGG GCATCTGGGAAACCTCCAGCCTCAAGTGTGTTAGTAACATGAAAAAGCTTTGG GGGGTAGTTGG ATCTGGGTGTCTGGTCCATTGCTGGCAGTGGACATTATTCTTGCCCTAAGAGA CACTGCCTTTTCA GCAGCAGATACTGGTGAGATGGGGGTGGCTCAGGCTGTTCTTCCTCCTCCTAG AATGTCTGGAGC TGTTTCTACATTCAGATAACTGGGTCCCCTATCACAAGGCTACTGGCTAATAGG AATTCCCTCCTG GTGCCACCACTGGCCAGTACCTTTCCTAAGTCTTTGCTCAAATTAACCAGGTTG TGAGCCAGTGGC TTGAGTGAATGTTAGGCCTTGGGGGCTGAGTCTCTGAAAAGTCTAAGAAGCT CTGCCTAGACCAA ATATGGTATACCTCCTGACCCCTCTCTCCCTCATGTCCTGGGATTCTGGGGAAG AGACCTAGAAAC AAGCTTTCAAAGAAAAACCAGAAGTTGTCATAAATGGTCAGAAAGAACGATC AGGTTGGAGACT TGGGAAACCCAGGGCCTAAAGAGAAGTATCCATGAGGGTCAAACTTCCTGTT GAACTTCCTATGT TCTTTCTCAAGTGCTCAGGGATCTAAGTTAGTGGACAGCAAGCCTGTGGCTAC GGGGTGGTGATG TTCCTCTTCCAGCTGTCCCCTCAGCTAAGGGGCTTAGTTTCCATGTGGGATGCC ATCACTTGGTTC ATGCTCATTCACACAAAGGGCACGTGTCTCAGCCTGGTATCAGGGAAATTGAG ACTTATTTTTGCC CTAAAACGTCTCCCTAGCTGTTCTTCGTGGGGTTTTTTTGTTTGTTTTTTTGCCT AATTTGCTTTTTC TGACCAAGCCTTGTGGCACCAGCAATCTCCAAAGTCCTGTGGTGGGAGGGCT GAATAAATAAAA ATACAAAGAGGTGGGTAAGGAGTAGGAAGGTAGAGAGCACCACTGATGAGG CCCTCCTAGCCC ATGGCAGACCCAGACCTCTTCTCCCCCAGGAATTAGAAGTGGCAGGAGAGAA CAACAGGGGCTG GGAATGGAGGGGAGAATTTCTAGGGGAAGTTTCCTGAGTTGAAACTTCTCCT GTGGTTACTGGTA TTGAGAAATCAGCTACCAAAGTGAAAAAGGACAAGATCAATTCTTTTCTAGTC AGTTCTAAGACT GCTAGAGAGAGATACCAGGCCCTTAGCCTTGCTCTCAGTAGCGTCAGCCCCAG TTCTGAGCCTCC CCACATTACACTTAACAAGCAGTAAAGGAGTGAGCACTTTGGGTCCTTAGACT CACGTCTGGGGA GGAAGAGCAAGTAGAAAAGTGGCATTTTCTTGATTGGAAAGGGGGAAGGAT CTTATTGCACTTG GGCTGTTCAGAATGTAGAAAGGACATATTTGAGGAAGTATCTATTTGAGCACT GATTTACTCTGTA 4038 LRP4 HSX2_01040550 406 TGTAATGGTTTTAACGTTACTCACTGGAGAGATTGGACTTTCTGGAGTTATTTA ACCACTATGTTC AGTATTTTAGGACTTTATGATAATTTAATATAAATTTAGCTTTTCTTAATCA 11216 AKAP10 HSX2_01559349 407 ATCTTGTCTGGACTACCAGACTCAAGAGACCAAATCAAGCCTTTCTAAGACCCT TGAACAAGTCTT GCACGACACTATTGTCCTCCCTTACTTCATTCAATTCATGGAACTTCGGCGAAT GGAGCATTTGGT GAAATTTTGGTTAGAGGCTGAAAGTTTTCATTCAACAACTTGGTCGCGAATAA GAGCACACAGTC TAAACACAGTGAAGCAGAGCTCACTGGCTGAGCCTGTCTCTCCATCTAAAAAG CATGAAACTACA GCGTCTTTTTTAACTGATTCTCTTGATAAGAGATTGGAGGATTCTGGCTCAGCA CAGTTGTTTATG ACTCATTCAGAAGGAATTGACCTGAATAATAGAACTAACAGCACTCAGAATCA CTTGCTGCTTTCC CAGGAATGTGACAGTGCCCATTCTCTCCGTCTTGAAATGGCCAGAGCAGGAAC TCACCAAGTTTC CATGGAAACCCAAGAATCTTCCTCTACACTTACAGTAGCCAGTAGAAATAGTC CCGCTTCTCCACT AAAAGAATTGTCAGGAAAACTAATGAAAA 115353 LRRC42 HSX2_02172282 408 TGTAACTCAGCTCCACCTGAAGGATAATTGTTTATCTGATGCTGGGGTGCGGA AGATGACAGCAC CAGTTCGAGTGATGAAAAGAGGCCTTGAGAATCTAACATTATTAGACTTATCA T 120892 LRRK2 HSX2_02185024 409 TTCCCTGAGCAGCGGACGTTCATGCTGGGAGGGCGGCGGGTTGGAAGCAGG TGCCACCATGGC TAGTGGCAGCTGTCAGGGGTGCGAAGAGGACGAGGAAACTCTGAAGAAGTT GATAGTCAGGCT GAACAATGTCCAGGAAGGAAAACAGATAGAAACGCTGGTCCAAATCCTGGAG GATCTGCTGGTG TTCACGTACTCCGAGCGCG 120892 LRRK2 HSX2_02185048 410 GTGGGTTGGTCACTTCTGTGCAAATTAATAGAAGTCTGTCCAGGTACAATGCA AAGCTTAATGGG ACCCCAGGATGTTGGAAATGATTGGGAAGTCCTTGGTGTTCACCA 120892 LRRK2 HSX2_02185064 411 ATTGATTCTTAAAATGCTAACAGTTCATAATGCCAGTGTAAACTTGTCAGTGAT TGGACTGAAGAC CTTAGATCTCCTCCTAACTTCAG 120892 LRRK2 HSX2_02185088 412 TCTCAGAGGAGCAACTGACTGAATTTGTTGAGAACAAAGATTATATGATATTG TTAAGTGCGTTA ACAAATTTTAAAGATGAAGAGGAAATTGTGCTTCATGTGCTGCATTGTTTACA TTCCCTAGCGATT CCTT 120892 LRRK2 HSX2_02185098 413 GCAATAATGTGGAAGTCCTCATGAGTGGCAATGTCAGGTGTTATAATATTGTG GTGGAAGCTATG AAAGCATTCCCTATGAGTGAAAGAATTCAAGAAGTGAGTTGCTGTTTGCTCCA TAGGCTTACATTA G 120892 LRRK2 HSX2_02185108 414 GTAATTTTTTCAATATCCTGGTATTAAACGAAGTCCATGAGTTTGTGGTGAAAG CTGTGCAGCAGT ACCCAGAGAATGCAGCATTGCAGATCTCAGCGCTCAGCTGTTTGGCCCTCCTC A 120892 LRRK2 HSX2_02185118 415 CTGAGACTATTTTCTTAAATCAAGATTTAGAGGAAAAGAATGAGAATCAAGAG AATGATGATGAG GGGGAAGAAGATAAATTGTTTTGGCTGGAAGCCTGTTACAAAGCATTAACGT GGCATAGAAAGA ACAAGCACGTGCAG 120892 LRRK2 HSX2_02185128 416 GAGGCCGCATGCTGGGCACTAAATAATCTCCTTATGTACCAAAACAGTTTACA TGAGAAGATTGG AGATGAAGATGGCCA 120892 LRRK2 HSX2_02185137 417 TTTCCCAGCTCATAGGGAAGTGATGCTCTCCATGCTGATGCATTCTTCATCAAA G 120892 LRRK2 HSX2_02185139 418 GAAGTTTTCCAGGCATCTGCGAATGCATTGTCAACTCTCTTAGAACAAAATG 120892 LRRK2 HSX2_02185153 419 TTAATTTCAGAAAAATACTGTTATCAAAAGGAATACACCTGAATGTTTTGGAGT TAATGCAGAAGC ATATACATTCTCCTGAAGTGGCTGAAAGTGGCTGTAAAATGCTAAATCATCTTT TTGAAGGAAG 120892 LRRK2 HSX2_02185176 420 GCATGCCAGAAGAATCCAGGGAGGATACAGAATTTCATCATAAGCTAAATATG GTTAAAAAACA GTGTTTCAAGAATGATATTCACAAACTGGTCCTAGCAGCTTTGAACAGG 120892 LRRK2 HSX2_02185188 421 TTCATTGGAAATCCTGGGATTCAGAAATGTGGATTAAAAGTAATTTCTTCTATT GTACATTTTCCTG ATGCATTAGAGATGTTATCCCTGGAAGGTGCTATGGATTCAGTGCTTCACACA CTGCAGATGTAT CCAGATGACCAAG 120892 LRRK2 HSX2_02185200 422 AAATTCAGTGTCTGGGTTTAAGTCTTATAGGATACTTGATTACAAAGAAGAAT GTGTTCATAGGAA CTGGACATCTGCTGGCAAAAATTCTGGTTTCCAGCTTATACCGATTTAAGGATG TTGCTGAAATAC AGACTAAA 120892 LRRK2 HSX2_02185226 423 TTTCTAAACCTCTGTTGCAAGTGTTTTGCAAAAGTAGCTATGGATGATTACTTA AAAAATGTGATG CTAGAGAGAGCGTGTGATCAGAATAACAGCATCATGGTTGAATGCTTGCTTCT ATTGGGAGCAGA TGCCAATCAAGCAAAGGAGGGATCTTCTTTAATTTGTCAG 120892 LRRK2 HSX2_02185236 424 GTATGTGAGAAAGAGAGCAGTCCCAAATTGGTGGAACTCTTACTGAATAGTG GATCTCGTGAACA AGATGTACGAAAAGCGTTGACGATAAGCATTGGGAAAGGTGACAGCCAGATC ATCAGCTTGCTC TTAAGGAGGCTGGCCCTGGATGTGGCCAACAATAGCATTTGCCTTGGAGGATT TTGTATAGGAAA AGTTGAACCTTCTTGGCTTGGTCCTTTATTTCCAGATAAGACTTCTAATTTAAGG AAACAAACAA 120892 LRRK2 HSX2_02185241 425 ATATAGCATCTACACTAGCAAGAATGGTGATCAGATATCAGATGAAAAGTGCT GTGGAAGAAGG AACAGCCTCAGGCAGCGATGGAAATTTTTCTGAAGATGTGCTGTCTAAATTTG ATGAATGGACCT TTATTCCTGACTCTTCTATGGACAGTGTGTTTGCTCAAAGTGATGACCTGGATA GTGAAG 120892 LRRK2 HSX2_02185269 426 GGTCATCAAAACTTCAATCCCATATGAGGCATTCAGACAGCATTTCTTCTCTGG CTTCTGAGAGAG AATATATTACATCACTAGACCTTTCAGCAAATGAACTAAGAGATATTGATGCCC TAAGCCAGAAAT GCTGTATAAGTGTTCATTTGGAGCATCTTGAAAAGCTGGAGCTTCACCAGAAT GCACTCACGAGC TTTCCACAACAGCTATGTGAA 120892 LRRK2 HSX2_02185278 427 ACTCTGAAGAGTTTGACACATTTGGACTTGCACAGTAATAAATTTACATCATTT CCTTCTTATTTGT TGAAAATGAGTTGTATTGCTAATCTTGATGTCTCTCGAAATGACATTGGACCCT CAGTGGTTTTAG ATCCTACAGTGAAATGTCCAACTCTGAAACAGTTTAACCTGTCATATAACCAGC TGTCTTTTGTACC TGAGAACCTCACTGATGTGGTAGAGAAACTGGAGCAGCTCATTTTAGAAGG 120892 LRRK2 HSX2_02185287 428 AAATAAAATATCAGGGATATGCTCCCCCTTGAGACTGAAGGAACTGAAGATTT TAAACCTTAGTA AGAACCACATTTCATCCCTATCAGAGAACTTTCTTGAGGCTT GTCCTAAAGTGG AGAGTTTCAGTG CCAGAATGAATTTTCTTG 120892 LRRK2 HSX2_02185299 429 CTGCTATGCCTTTCTTGCCTCCTTCTATGACAATCCTAAAATTATCTCAGAACAA ATTTTCCTGTATT CCAGAAGCAATTTTAAATCTTCCACA 120892 LRRK2 HSX2_02185363 430 GTCGTGAGGAATTCTATAGTACTCATCCCCATTTTATGACGCAGCGAGCATTGT ACCTTGCTGTCT ATGACCTCAGCAAGGGACAGGCTGAAGTTGATGCCATGAAGCCTTGGCTCTTC AATATAAAG 120892 LRRK2 HSX2_02185381 431 GCTCGCGCTTCTTCTTCCCCTGTGATTCTCGTTGGCACACATTTGGATGTTTCTG ATGAGAAGCAA CGCAAAGCCTGCATGAGTAAAATCACCAAGGAACTCCTGAATAAGCGAGGGT TCCCTGCCATAC GAGATTACCACTTTGTGAATGCCACCGAGGAATCTGATGCTTTGGCAAAACTT CGGAAAACCATC ATAAACGAGAGCCTTAATTTCAAG 120892 LRRK2 HSX2_02185395 432 ATCCGAGATCAGCTTGTTGTTGGACAGCTGATTCCAGACTGCTATGTAGAACTT GAAAAAATCATT TTATCGGAGCGTAAAAATGTGCCAATTGAATTTCCCGTAATTGACCGGAAACG ATTATTACAACTA GTGAGAGAAAATCAGCTGCAGTTAGATGAAAATGAGCTTCCTCACGCAGTTCA CTTTCTAAATGA ATCAG 120892 LRRK2 HSX2_02185411 433 GAGTCCTTCTTCATTTTCAAGACCCAGCACTGCAGTTAAGTGACTTGTACTTTG TGGAACCCAAGT GGCTTTGTAAAATCATGGCACAG 120892 LRRK2 HSX2_02185433 434 TTTGTCTGACCACAGGCCTGTGATAGAGCTTCCCCATTGTGAGAACTCTGAAAT TATCATCCGACT ATATGAAATGCCTTATTTTCCAATGGGATTTTGGTCAAGATTAATCAATCGATT ACTTGAGATTTCA CCTTACATGCTTTCAGGGAGAG 120892 LRRK2 HSX2_02185443 435 AACGAGCACTTCGCCCAAACAGAATGTATTGGCGACAAGGCATTTACTTAAAT TGGTCTCCTGAA GCTTATTGTCTGGTAGGATCTGAAGTCTTAGACAATCATCCAGAGAGTTTCTTA AAAATTACAGTT CCTTCTTGTAGAAAAG 120892 LRRK2 HSX2_02185455 436 GCTGTATTCTTTTGGGCCAAGTTGTGGACCACATTGATTCTCTCATGGAAGAAT GGTTTCCTGGGT TGCTGGAGATTGATATTTGTGGTGAAGGAGAAACTCTGTTGAAGAAATGGGC ATTATATAGTTTT AATGATGGTGAAGAACATCAAAAAATCTTACTTGATGACTTGATGAAGAAAGC AGAGGAAG 120892 LRRK2 HSX2_02185470 437 GAGATCTCTTAGTAAATCCAGATCAACCAAGGCTCACCATTCCAATATCTCAGA TTGCCCCTGACT TGATTTTGGCTGACCTGCCTAGAAATATTATGTTGAATAATGATGAGTTGGAAT TTGAACAAGCTC CAGAGTTTCTCCTAG 120892 LRRK2 HSX2_02185480 438 GTGATGGCAGTTTTGGATCAGTTTACCGAGCAGCCTATGAAGGAGAAGAAGT GGCTGTGAAGAT TTTTAATAAACATACATCACTCAGGCTGTTAAGACAA 120892 LRRK2 HSX2_02185490 439 GAGCTTGTGGTGCTTTGCCACCTCCACCACCCCAGTTTGATATCTTTGCTGGCA GCTGGGATTCGT CCCCGGATGTTGGTGATGGAGTTAGCCTCCAAGGGTTCCTTGGATCGCCTGCT TCAGCAGGACAA AGCCAGCCTCACTAGAACCCTACAGCACAGGATTGCACTCCACGTAGCTGATG GTTTGAG 120892 LRRK2 HSX2_02185500 440 ATACCTCCACTCAGCCATGATTATATACCGAGACCTGAAACCCCACAATGTGCT GCTTTTCACACT GTATCCCAATGCTGCCATCATTGCAAAGATTGCTGACTACGGCATTGCTCAGTA CTGCTGTAGAAT GGGGATAAAAACATCAGAGGGCACACCAG 120892 LRRK2 HSX2_02185515 441 GGTTTCGTGCACCTGAAGTTGCCAGAGGAAATGTCATTTATAACCAACAGGCT GATGTTTATTCAT TTGGTTTACTACTCTATGACATTTTGACAACTGGAGGTAGAATAGTAGAGGGT TTGAAGTTTCCAA ATGAGTTTGATGAATTAGAAATACAAGGAAAATTACCTG 120892 LRRK2 HSX2_02185530 442 ATCCAGTTAAAGAATATGGTTGTGCCCCATGGCCTATGGTTGAGAAATTAATT AAACAGTGTTTGA AAGAAAATCCTCAAGAAAGGCCTACTTCTGCCCAG 120892 LRRK2 HSX2_02185541 443 GTCTTTGACATTTTGAATTCAGCTGAATTAGTCTGTCTGACGAGACGCATTTTA TTACCTAAAAAC GTAATTGTTGAATGCATGGTTGCTACACATCACAACAGCAGGAATGCAAGCAT TTGGCTGGGCTG TGGGCACACCGACAGAGGACAGCTCTCATTTCTTGACTTAAATACTGAAGGAT ACACTTCTGAG 120892 LRRK2 HSX2_02185551 444 GAAGTTGCTGATAGTAGAATATTGTGCTTAGCCTTGGTGCATCTTCCTGTTGAA AAGGAAAGCTG GATTGTGTCTGGGACACAGTCTGGTACTCTCCTGGTCATCAATACCGAAGATG GGAAAAAGAGAC ATACCCTAGAAAAGATGACTGATTCTGTCACTTGTTTGTATTGCAATTCCTTTTC CAAGCAAAG 120892 LRRK2 HSX2_02185560 445 CAAACAAAAAAATTTTCTTTTGGTTGGAACCGCTGATGGCAAGTTAGCAATTTT TGAAGATAAGAC TGTTAAG 120892 LRRK2 HSX2_02185571 446 CTTAAAGGAGCTGCTCCTTTGAAGATACTAAATATAGGAAATGTCAGTACTCC ATTGATGTGTTTG AGTGAATCCACAAATTCAACGGAAAGAAATGTAATGTGGGGAGGATGTGGCA CAAAGATTTTCT CCTTTTCTAATGATTTCACCATTCAGAAACTCATTGAGACAAGAACAAGCCAAC T 120892 LRRK2 HSX2_02185581 447 GTTTTCTTATGCAGCTTTCAGTGATTCCAACATCATAACAGTGGTGGTAGACAC TGCTCTCTATATT GCTAAGCAAAATAGCCCTGTTGTGGAAGTGTGGGATAAGAAAACTGAAAAAC TCTGTGGACTAA TAGACTGCGTGCACTTTTTAAG 120892 LRRK2 HSX2_02185595 448 GGAGGTAATGGTAAAAGAAAACAAGGAATCAAAACACAAAATGTCTTATTCT GGGAGAGTGAAA ACCCTCTGCCTTCAGAAGAACACTGCTCTTTGGATAGGAACTGGAGGAGGCCA TATTTTACTCCT GGATCTTTCAACTCGTCGACTTATACGTGTAATTTACAACTTTTGTAATTCGGTC AGAGTCATGAT GACAGCACAGCTAG 120892 LRRK2 HSX2_02185609 449 GAAGCCTTAAAAATGTCATGCTGGTATTGGGCTACAACCGGAAAAATACTGAA GGTACACAAAA GCAGAAAG 120892 LRRK2 HSX2_02185619 450 AGATACAATCTTGCTTGACCGTTTGGGACATCAATCTTCCACATGAAGTGCAAA ATTTAGAAAAAC ACATTGAAGTGAGAAAAGAATTAGCTGAAAAAATGAGACGAACATCTGTTGA GTAAGAGAGAAA TAGGAATTGTCTTTGGATAGGAAAATTATTCTCTCCTCTTGTAAATATTTATTTT AAAAATGTTCAC ATGGAAAGGGTACTCACA 120892 LRRK2 HSX2_02185621 451 TTTTTTGAAATAGCTCGTGTGTATGAAGGAATGTTATTATTTTTAATTTAAATAT ATGTAAAAATAC TTACCAGTAAATGTGTATTTTAAAGAACTATTTAAAACACAATGTTATATTTCTT ATAAATACCAGT TACTTTCGTTCATTAATTAATGAAAATAAATCTGTGAAGTACCTAATTTAAGTA CTCATACTAAAAT TTATAAGGCCGATAATTTTTTGTTTTCTTGTCTGTAATGGAGGTAAACTTTATTT TAAATTCTGTGCT TAAGACAGGACTATTGCTTGTCGATTTTTCTAGAAATCTGCACGGTATAATGAA AATATTAAGACA GTTTCCCATGTAATGTATTCCTTCTTAGATTGCATCGAAATGCACTATCATATAT GCTTGTAAATAT TCAAATGAATTTGCACTAATAAAGTCCTTTGTTGGTATGTGAATTCTCTTTGTTG CTGTTGCAAACA GTGCATCTTACACAACTTCACTCAATTCAAAAGAAAACTCCATTAAAAGTACTA ATGAAAAAACAT GACATACTGTCAAAGTCCTCATATCTAGGAAAGACACAGAAACTCTCTTTGTCA CAGAAACTCTCT GTGTCTTTCCTAGACATAATAGAGTTGTTTTTCAACTCTATGTTTGAATGTGGA TACCCTGAATTTT GTATAATTAGTGTAAATACAGTGTTCAGTCCTTCAAGTGATATTTTTATTTTTTT ATTCATACCACTA GCTACTTGTTTTCTAATCTGCTTCATTCTAATGCTTATATTCATCTTTTCCCTAAA TTTGTGATGCTG CAGATCCTACATCATTCAGATAGAAACCTTTTTTTTTTTCAGAATTATAGAATTC CACAGCTCCTAC CAAGACCATGAGGATAAATATCTAACACTTTTCAGTTGCTGAAGGAGAAAGGA GCTTTAGTTATG ATGGATAAAAATATCTGCCACCCTAGGCTTCCAAATTATACTTAAATTGTTTAC ATAGCTTACCACA ATAGGAGTATCAGGGCCAAATACCTATGTAATAATTTGAGGTCATTTCTGCTTT AGGAAAAGTACT TTCGGTAAATTCTTTGGCCCTGACCAGTATTCATTATTTCAGATAATTCCCTGTG ATAGGACAACTA GTACATTTAATATTCTCAGAACTTATGGCATTTTACTATGTGAAAACTTTAAATT TATTTATATTAAG GGTAATCAAATTCTTAAAGATGAAAGATTTTCTGTATTTTAAAGGAAGCTATGC TTTAACTTGTTAT GTAATTAACAAAAAAATCATATATAATAGAGCTCTTTGTTCCAGTGTTATCTCTT TCATTGTTACTTT GTATTTGCAATTTTTTTTACCAAAGACAAATTAAAAAAATGAATACCATATTTA AATGGAATAATAA AGGTTTTTTAAAAACTTTAA 120892 LRRK2 HSX2_02576451 452 TTTCCCAGCTCATAGGGAAGTGATGCTCTCCATGCTGATGCATTCTTCATCAAA GGAAGTTTTCCA GGCATCTGCGAATGCATTGTCAACTCTCTTAGAACAAAATG 4050 LTB HSX2_01041650 453 GTCTCAATGGGGGCACTGGGGCTGGAGGGCAGGGGTGGGAGGCTCCAGGG GAGGGGTTCCCT CCTGCTAGCTGTGGCAGGAGCCACTTCTCTGGTGACCTTGTTGCTGGCGGTGC CTATCACTGTCCT GGCTGTGCTGGCCTTAGTGCCCCAGGATCAGGGAGGACTG 23499 MACF1 HSX2_01641182 454 GATGAAAAGGAGCAGCTTATACAGTCCAAGAGTTCCGTTGCCAGTCTCGTTGG GAGATCAAAAA CCATCGTTCAGCTAAAACCACGCAGTCCAGACCATGTGTTAAAGAACACCATTT CTGTCAAGGCT GTCTGTGACTACAGGCAGATCGAG 23499 MACF1 HSX2_01641195 455 ATTACTATTTGCAAAAATGATGAATGTGTGCTAGAAGATAATTCTCAGCGGAC CAAATGGAAAGT GATCAGCCCCACAGGGAACGAGGCAATGGTGCCGTCAGTCTGCTTCCTCATCC CCCCACCCAATA AGGATGCCATTGAGATGGCCAGCAG 23499 MACFI HSX2_01641210 456 GGTCGAACAATCTTATCAGAAGGTTATGGCCCTTTGGCATCAGCTGCATGTTA ACACCAAAAGCC TTATCTCTTGGAACTATCTGCGTAAAGACCTTGACCTTGTACAGACCTGGAACC TAGAAAAG 9223 MAGI1 HSX2_01392893 457 CTATGTCACCTTCACCTGCGTCGGGATTGAGCAAGGGTGAGAGAGAGAGAGA AATCAATTCCAC GAATTTTGGAGAATGTCCGA 4124 MAN2A1 HSX2_01046549 458 ATGTTGGATGTTTACAGTCTAATTTCTTTTGACAATCCAGATGGTGGAGTTTGG AAGCAAGGATTT GACATTACTTATGAATCTAATGAATGGGACACTGAACCCCTTCAAGTCTTTGTG GTGCCTCATTCC CATAACGACCCAG 149175 MANEAL HSX2_02487371 459 ATCAGTACAGCATCCAGGTGGCCTTCCACATCCA 4128 MAOA HSX2_01047014 460 ATTCCAACTGATGCACCCTGGGAGGCTCAACATGCTGACAAATGGGACAAAA TGACCATGAAAG AGCTCATTGACAAAATCTGCTGGACAAA 4128 MAOA HSX2_01047060 461 GGTGATTCGTCAACCCGTGGGCAGGATTTTCTTTGCGGGCACAGAGACTGCC ACAAAGTGGAGC GGCTACATGGAAGGGGCAGTTGAGGCTGGAGAACGAGCAGCTAGGGAG 4128 MAOA HSX2_01047065 462 GTCTTAAATGGTCTCGGGAAGGTGACCGAGAAAGATATCTGGGTACAAGAAC CTGAATCAAAG 4128 MAOA HSX2_02507973 463 GAAGAAGAAAATCTGTGAGCTCTATGCCAAAGTGCTGGGATCCCAAGAAGCT TTACAT 4133 MAP2 HSX2_01047357 464 ATTCTTCAGCTTGTCTCTAACCGAGGAAGCATTGATTGGGAGCTACTCATTCA GAAAATTAAAAG 4133 MAP2 HSX2_01047371 465 TTGCAGGAGAAATAACAAGGCATTGAAGAATGGCAGATGAACGGAAAGATG AAGCAAAGGCAC CTCACTGGACCTCAGCACCGCTAACAGAGGCATCTGCACACTCACATCCACCT GAGATTAAGGAT CAAGGCGGAGCAGGGGAAGGACTTGTCCGAAGCGCCAATGGATTCCCATACA GGGAGGATGAA GAGGGTGCCTTTGGAGAGCATGGGTCACAGGGCACCTATTCAAATACCAAAG AGAATGGGATCA ACGGAGAGCTGACCTCAGCTGACAGAGAAACAGCAG 4133 MAP2 HSX2_01047388 466 CAGCAGGTGGGGAATCAGCTCTGGCTCCCAGTGTATTTAAACAGGCAAAGGA CAAAGTCTCT 4133 MAP2 HSX2_01047403 467 GGTCAGAGCCAATTCGCAGAGCAGGGAAGAGTGGTACCTCAACACCCACTAC CCCTGGGTCTAC TGCCATCACTCCTGGCACCCCACCAAGTTATTCTTCAC 4133 MAP2 HSX2_01047404 468 GCACACCAGGCACTCCTGGAACCCCTAGCTATCCCAGGACCCCTCACACACCA GGAACCCCCAAG TCTGCCATCTTGGTGCCGAGTGAGAAGAAGGTCGCCATCATACGTACTCCTCC AAAATCTCCTGC GACTCCCAAGCAGCTTCGGCTTATTAACCAACCACTGCCAGACCTGAAGAATG TCAAATCCAAAA TCGGATCAACAGACAACATCAAATACCAGCCTAAAGGGGGGCAG 4133 MAP2 HSX2_01047415 469 GTACAAATTGTTACCAAGAAAATAGACCTAAGCCATGTGACATCCAAATGTGG CTCTCTGAAGAA CATCCGCCACAGGCCAG 4133 MAP2 HSX2_01047421 470 GCGGACGTGTGAAAATTGAGAGTGTAAAACTAGATTTCAAAGAAAAGGCCCA AGCTAAAGTTGG TTCTCTTGATAATGCTCATCATGTACCTGGAGGTGGTAATGTCAAG 4133 MAP2 HSX2_01047427 471 ATTGACAGCCAAAAGTTGAACTTCAGAGAGCATGCTAAAGCCCGTGTGGACC ATGGGGCTGAGA TCATTACACAGTCCCCAGGCAGATCCAGCGTGGCATCACCCCGACGACTCAGC AATGTCTCCTCG TCTGGAAGCATCAACCTGCTCGAATCTCCTCAGCTTGCCACTTTGGCTGAGGA TGTCACTGCTGCA CTCGCTAAGCAGGGCTTGTGAATATTTCTCATTTAGCATTGAAATAATAATATT TAGGCATGAGCT CTTGGCAGGAGTGGGCTCTGA 4133 MAP2 HSX2_02508006 472 CAGCTGAAGAAACAGCTAATCTGCCTCCTTCTCCACCCCCATCACCTGCCTCAG AACAGACTGTCA CAGTGGAGGAAG 4133 MAP2 HSX2_02508011 473 GGTCAGAGCCAATTCGCAGAGCAGGGAAGAGTGGTACCTCAACACCCACTAC CCCTGGGTCTAC TGCCATCACTCCTGGCACCCCACCAAGTTATTCTTCACGCACACCAGGCACTCC TGGAACCCCTAG CTATCCCAGGACCCCTCACACACCAGGAACCCCCAAGTCTGCCATCTTGGTGC CGAGTGAGAAGA AGGTCGCCATCATACGTACTCCTCCAAAATCTCCTGCGACTCCCAAGCAGCTTC GGCTTATTAACC AACCACTGCCAGACCTGAAGAATGTCAAATCCAAAATCGGATCAACAGACAA CATCAAATACCAG CCTAAAGGGGGGCAG 6441 SFTPD HSX2_01215290 474 TTGAGCTCTTCCCAAATGGCCAAAGTGTCGGGGAGAAGATTTTCAAGACAGC AGGCTTTGTAAAA CCATTTACGGAGGCACAGCTGCTGTGCACACAGGCTGGTGGACAGTTGGCCT CTCCACGCTCTGC CGCTGAGAATGCCGCCTTGCAACAGCTGGTCGTAGCTAAGAACGAGGCTGCT TTCCTGAGCATG ACTGATTCCAAGACAGAGGGCAAGTTCACCTACCCCACAGGAGAGTCCCTGG TCTATTCCAACTG GGCCCCAGGGGAGCCCAACGATGATGGCGGGTCAGAGGACTGTGTGGAGAT CTTCACCAATGG CAAGTGGAATGACAGGGCTTGTGGAGAAAAGCGTCTTGTGGTCTGCGAGTTC TGAGCCAACTGG GGTGGGTGGGGCAGTGCTTGGCCCAGGAGTTTGGCCAGAAGTCAAGGCTTA GACCCTCATGCTG CCAATATCCTAATAAAAAGGTGACCAT 79143 MBOAT7 HSX2_02566141 475 CGTGGGAATCATGACAGCCCGACGTGCCCTCCCT 64769 MEAF6 HSX2_01981938 476 TTGATCTGAAGTTAAACAAAAAACCACGA 64769 MEAF6 HSX2_01981953 477 AATAAAAACCGGCACAGGATTGATCTGAAGTTAA 64769 MEAF6 HSX2_02564579 478 GATTGATCTGAAGTTAAACAAAAAACCACGAGCT 9969 MED13 HSX2_01458570 479 GAGGAAGTATTCTGCTTCATCAGGTGGTCTATGCGAAGAAGCGACAGCTGCT AAAGTGGCATCCT GGGATTTTGTTGAAGCCACACAAAGAACAAATTGCAGTTGTTTGAG 9969 MED13 HSX2_01458575 480 GCACAAAAATCTCAAGTCAAGAAATGCTGGACAACAAGGACAGGCACCATCTT TAGGTCAGCAA CAACAAATACTTCCTAAGCACAAGACCAATGAGAAGCAAGAAAAGAGTGAAA AGCCACAGAAAC GCCCCTTGACTCCTTTTCACCATCGTGTGTCTGTTAGTGATGATGTTGGCATGG ACGCAGATTCAG CCAGCCAAAGACTTGTGATCTCTGCTCCAGACAGTCAAGTGAGATTTTCAAAT ATCCGAACTAATG ATGTAGCAAAGACTCCTCAGATGCATGGCACCGAAATGGCAAATTCACCTCAA CCACCCCCACTT AGTCCTCACCCTTGTGATGTGGTTGATGAAGGAGTGACTAAAACACCTTCAAC TCCTCAGAGTCA ACATTTTTATCAAATGCCAACACCAGATCCCTTGGTTCCTTCTAAACCAATGGA AGATAGGATAGA CAGTTTGTCCCAGTCTTTCCCACCTCAATATCAGGAAGCTGTAGAACCTACAGT ATATGTTGGTAC AGCAGTAAACTTGGAAGAAGATGAAGCCAATATAGCCTGGAAGTATTACAAG TTCCCAAAGAAA AAAGATGTAGAGTTTTTACCACCTCAACTTCCAAGTGATAAATTCAAGGATGAT CCAGTTGGACCT TTTGGACAGGAAAGTGTAACATCAGTTACAGA 9969 MED13 HSX2_01458679 481 GCCTCTTTGCACCTCCACGTGCCTTCAGTGCAATCTGACGAGCTGCTTCACAGT AAACACTCCCAC CCACTTGACTCAAATCAGACTTCAGATGTCCTCAG 9969 MED13 HSX2_01458684 482 GTTTGTTTTGGAACAGTACAATGCACTCTCCTGGCTAACCTGTGACCCTGCAAC CCAGGACAGAC GCTCATGTCTCCCAATTCATTTTGTGGTGCTGAATCAGTTATATAACTTTATTAT GAATATGCTGTG ATCTTCATTTGATGGAACTGTGCAAGAAAAGAACAAGGAAAAATGGATGTTTC GCTGCAGGAT 4233 MET HSX2_01055592 483 ACCTCTCATAATGAAGGCCCCCGCTGTGCTTGCACCTGGCATCCTCGTGCTCCT GTTTACCTTGGT GCAGAGGAGCAATGGGGAGTGTAAAGAGGCACTAGCAAAGTCCGAGATGAA TGTGAATATGAA GTATCAGCTTCCCAACTTCACCGCGGAAACACCCATCCAGAATGTCATTCTACA TGAGCATCACAT TTTCCTTGGTGCCACTAACTACATTTATGTTTTAAATGAGGAAGACCTTCAGAA GGTTGCTGAGTA CAAGACTGGGCCTGTGCTGGAACACCCAGATTGTTTCCCATGTCAGGACTGCA GCAGCAAAGCC AATTTATCAGGAGGTGTTTGGAAAGATAACATCAACATGGCTCTAGTTGTCGA CACCTACTATGAT GATCAACTCATTAGCTGTGGCAGCGTCAACAGAGGGACCTGCCAGCGACATG TCTTTCCCCACAA TCATACTGCTGACATACAGTCGGAGGTTCACTGCATATTCTCCCCACAGATAGA AGAGCCCAGCC AGTGTCCTGACTGTGTGGTGAGCGCCCTGGGAGCCAAAGTCCTTTCATCTGTA AAGGACCGGTTC ATCAACTTCTTTGTAGGCAATACCATAAATTCTTCTTATTTCCCAGATCATCCAT TGCATTCGATATC AGTGAGAAGGCTAAAGGAAACGAAAGATGGTTTTATGTTTTTGACGGACCAG TCCTACATTGATG TTTTACCTGAGTTCAGAGATTCTTACCCCATTAAGTATGTCCATGCCTTTGAAA GCAACAATTTTAT TTACTTCTTGACGGTCCAAAGGGAAACTCTAGATGCTCAGACTTTTCACACAAG AATAATCAGGTT CTGTTCCATAAACTCTGGATTGCATTCCTACATGGAAATGCCTCTGGAGTGTAT TCTCACAGAAAA GAGAAAAAAGAGATCCACAAAGAAGGAAGTGTTTAATATACTTCAGGCTGCG TATGTCAGCAAG CCTGGGGCCCAGCTTGCTAGACAAATAGGAGCCAGCCTGAATGATGACATTCT TTTCGGGGTGTT CGCACAAAGCAAGCCAGATTCTGCCGAACCAATGGATCGATCTGCCATGTGTG CATTCCCTATCA AATATGTCAACGACTTCTTCAACAAGATCGTCAACAAAAACAATGTGAGATGT CTCCAGCATTTTT ACGGACCCAATCATGAGCACTGCTTTAATAGG 4233 MET HSX2_01055597 484 ACACTTCTGAGAAATTCATCAGGCTGTGAAGCGCGCCGTGATGAATATCGAAC AGAGTTTACCAC AGCTTTGCAGCGCGTTGACTTATTCATGGGTCAATTCAGCGAAGTCCTCTTAAC ATCTATATCCAC CTTCATTAAAGGAGACCTCACCATAGCTAATCTTGGGACATCAGAGGGTCGCT TCATGCAG 4233 MET HSX2_01055603 485 GGTTTCTCGATCAGGACCATCAACCCCTCATGTGAATTTTCTCCTGGACTCCCA TCCAGTGTCTCC AGAAGTGATTGTGGAGCATACATTAAACCAAAATGGCTACACACTGGTTATCA CTGGGAAGAAG 4233 MET HSX2_01055610 486 TGTGGCTGGTGCCACGACAAATGTGTGCGATCGGAGGAATGCCTGAGCGGGA CATGGACTCAAC AGATCTGTCTGCCTGCAATCTACAAG 4233 MET HSX2_01055633 487 TGTGTCAAACAGTATTCTTGAATGTTATACCCCAGCCCAAACCATTTCAACTGA GTTTGCTGTTAA ATTGAAAATTGACTTAGCCAACCGAGAGACAAGCATCTTCAGTTACCGTGAAG ATCCCATTGTCTA TGAAATTCATCCAACCAAATCTTTTATTAG 4233 MET HSX2_01055665 488 ATCAGTTTCCTAATTCATCTCAGAACGGTTCATGCCGACAAGTGCAGTATCCTC TGACAGACATGT CCCCCATCCTAACTAGTGGGGACTCTGATATATCCAGTCCATTACTGCAAAATA CTGTCCACATTG ACCTCAGTGCTCTAAATCCAGAGCTGGTCCAGGCAGTGCAGCATGTAGTGATT GGGCCCAGTAGCCTGATTGTGCATTTCAATGAAGTCATAGGAAGAG 4233 MET HSX2_01055670 489 GGCATTTTGGTTGTGTATATCATGGGACTTTGTTGGACAATGATGGCAAGAAA ATTCACTGTGCT GTGAAATCCTTGAACA 4233 MET HSX2_01055680 490 AATCCAACTGTAAAAGATCTTATTGGCTTTGGTCTTCAAGTAGCCAAAGGCAT GAAATATCTTGCA AGCAAAAAGTTTGTCCACAGAGACTTGGCTGCAAGAAACTGTAT 4233 MET HSX2_01055701 491 ATATGAAGTAATGCTAAAATGCTGGCACCCTAAAGCCGAAATGCGCCCATCCT TTTCTGAACTGG TGTCCCGGATATCAGCGATCTTCTCTACTTTCATTGGGGAGCACTATGTCCATG TGAACGCTACTT ATGTGAACGTAAAATGTGTCGCTCCGTATCCTTCTCTGTTGTCATCAGAAGATA ACGCTGATGATG AGGTGGACACACGACCAGCCTCCTTCTGGGAGACATCATAGTGCTAGTACTAT GTCAAAGCAACA GTCCACACTTTGTCCAATGGTTTTTTCACTGCCTGACCTTTAAAAGGCCATCGAT ATTCTTTGCTCT TGCCAAAATTGCACTATTATAGGACTTGTATTGTTATTTAAATTACTGGATTCTA AGGAATTTCTTA TCTGACAGAGCATCAGAACCAGAGGCTTGGTCCCACAGGCCACGGACCAATG GCCTGCAGCCGT GACAACACTCCTGTCATATTGGAGT 4233 MET HSX2_01055719 492 ACCAAATCTTTTATTAGTGGTGGGAGCACAATAA 4233 MET HSX2_02508602 493 ATAAACCTCTCATAATGAAGGCCCCCGCTGTGCTTGCACCTGGCATCCTCGTGC TCCTGTTTACCT TGGTGCAGAGGAGCAATGGGGAGTGTAAAGAGGCACTAGCAAAGTCCGAGA TGAATGTGAATA TGAAGTATCAGCTTCCCAACTTCACCGCGGAAACACCCATCCAGAATGTCATTC TACATGAGCATC ACATTTTCCTTGGTGCCACTAACTACATTTATGTTTTAAATGAGGAAGACCTTC AGAAGGTTGCTG AGTACAAGACTGGGCCTGTGCTGGAACACCCAGATTGTTTCCCATGTCAGGAC TGCAGCAGCAAA GCCAATTTATCAGGAGGTGTTTGGAAAGATAACATCAACATGGCTCTAGTTGT CGACACCTACTAT GATGATCAACTCATTAGCTGTGGCAGCGTCAACAGAGGGACCTGCCAGCGAC ATGTCTTTCCCCA CAATCATACTGCTGACATACAGTCGGAGGTTCACTGCATATTCTCCCCACAGAT AGAAGAGCCCA GCCAGTGTCCTGACTGTGTGGTGAGCGCCCTGGGAGCCAAAGTCCTTTCATCT GTAAAGGACCG GTTCATCAACTTCTTTGTAGGCAATACCATAAATTCTTCTTATTTCCCAGATCAT CCATTGCATTCG ATATCAGTGAGAAGGCTAAAGGAAACGAAAGATGGTTTTATGTTTTTGACGG ACCAGTCCTACAT TGATGTTTTACCTGAGTTCAGAGATTCTTACCCCATTAAGTATGTCCATGCCTTT GAAAGCAACAA TTTTATTTACTTCTTGACGGTCCAAAGGGAAACTCTAGATGCTCAGACTTTTCA CACAAGAATAAT CAGGTTCTGTTCCATAAACTCTGGATTGCATTCCTACATGGAAATGCCTCTGGA GTGTATTCTCAC AGAAAAGAGAAAAAAGAGATCCACAAAGAAGGAAGTGTTTAATATACTTCAG GCTGCGTATGTC AGCAAGCCTGGGGCCCAGCTTGCTAGACAAATAGGAGCCAGCCTGAATGATG ACATTCTTTTCGG GGTGTTCGCACAAAGCAAGCCAGATTCTGCCGAACCAATGGATCGATCTGCCA TGTGTGCATTCC CTATCAAATATGTCAACGACTTCTTCAACAAGATCGTCAACAAAAACAATGTGA GATGTCTCCAGC ATTTTTACGGACCCAATCATGAGCACTGCTTTAATAGG 196410 METTL7B HSX2_02278211 494 AAAAGTCATTGAAGAGCTTGTGGGGCTGTGGGACCTGCGCCCTCTGGAGGAA TTCCATACACCC ACTCAACTCTGGCAAATAGGAAATTGTCAAGTAGGAGACAAGGAGCAAAGTC CTATCACAGCGG GAGGGGACGCCAGCGCCTGCAGAGGCTGAGCAGGGAAAAAGCCAGTGCCCC AGCGGAAGCAC AGCTCAGAGCTGGTCTGCCATGGACATCCTGGTCCCACTCCTGCAGCTGCTGG TGCTGCTTCTTAC CCTGCCCCTGCACCTCATGGCTCTGCTGGGCTGCTGGCAGCCCCTGTGCAAAA GCTACTTCCCCTA CCTGATGGCCGTGCTGACTCCCAAGAGCAACCGCAAGATGGAGAGCAAGAAA CGGGAGCTCTTC AGCCAGATAAAGGGGCTTACAGGAGCCTCCGGGAAAGTGGCCCTACTGGAGC TGGGCTGCGGA ACCGGAGCCAACTTTCAGTTCTACCCACCGGGCTGCAGGGTCACCTGCCTAGA CCCAAATCCCCA CTTTGAGAAGTTCCTGACAAAGAGCATGGCTGAGAACAGGCACCTCCAATATG AGCGGTTTGTG GTGGCTCCTGGAGAGGACATGAGACAGCTGGCTGATGGCTCCATGGATGTGG TGGTCTGCACTC TGGTGCTGTGCTCTGTGCAGAGCCCAAGGAAGGTCCTGCAGGAGGTCCGGAG AGTACTGAGACC G 4240 MFGE8 4240.004.1-D 495 CTGGCAGCAGTAAGATCTTCCCTGGCAA 4240 MFGE8 4240.004.1-F 496 CACCCAGCAGCAATGACGATAACCCCTGGATCCAGGTGAACCTGCTGCGGAG GATGTGGGTAAC AGGTGTGGTGACGCAGGGTGCCAGCCGCTTGGCCAGTCATGAGTACCTGAAG GCCTTCAAGGTG GCCTACAGCCTTAATGGACACGAATTCGATTTCATCCATGATGTTAATAAAAAA CACAAGGAGTTT GTGGGTAACTGGAACAAAAACGCGGTGCATGTCAACCTGTTTGAGACCCCTGT GGAGGCTCAGT ACGTGAGATTGTACCCCACGAGCTGCCACACGGCCTGCACTCTGCGCTTTGAG CTACTGGGCTGT GAGCTGAACGGATGCGCCAATCCCCTGGGCCTGAAGAATAACAGCATCCCTG ACAAGCAGATCA CGGCCTCCAGCAGCTACAAGACCTGGGGCTTGCATCTCTTCAGCTGGAACCCC TCCTATGCACGG CTGGACAAGCAGGGCAACTTCAACGCCTGGGTTGCGGGGAGCTACGGT 4240 MFGE8 HSX2_01056073 497 GGGCTTGCATCTCTTCAGCTGGAACCCCTCCTATGCACGGCTGGACAAGCAGG GCAACTTCAACG CCTGGGTTGCGGGGAGCTACGGTAACGATCAGTGGCTGCAG 4240 MFGE8 HSX2_01056081 498 CCAGGGGGCCCGTAACTTTGGCTCTGTCCAGTTTGTGGCATCCTA 4240 MFGE8 HSX2_01056085 499 GTGACAGGCATCATCACCCAGGGGGCCCGTAACT 4240 MFGE8 HSX2_01056092 500 TTCCCTGGCAACTGGGACAACCACTCCCACAAGAAGAACTTGTTTGAGACGCC CATCCTGGCTCG CTATGTGCGCATCCTGCCTGTAGCCTGGCACAACCGCATCGCCCTGCGCCTGG AGCTGCTGGGCT GTTAGTGGCCAC 4240 MFGE8 HSX2_01056094 501 CCACCCCCAGGTCTTCCTGCTTTCCATGGGCCCGCTGCCTCTTGGCTTCTCAGC CCCTTTAAATCAC CATAGGGCTGGGGACTGGGGAAGGGGAGG 4240 MFGE8 HSX2_01056095 502 GTGTTCAGAGGCAGCACCACCACACAGTCACCCCTCCCTCCCTCTTTCCCACCC TCCACCTCTCAC GGGCCCTGCCCCAGCCCCTAAGCCCCGTCCCCTAACCCCCAGTCCTCACTGTCC TGTTTTCTTAGG CACTGAGGGATCTGAGTAGGTCTGGGATGGACAGGAAAGGGCAAAGTAGGG CGTGTGGTTTCC CTGCCCCTGTCCGGACCGCCGATCCCAGGTGCGTGTGTCTCTGTCTCTCCTAGC CCCTCTCTCACA CATCACATTCCCATGGTGGCCTCAAGAAAGGCCCGGAAGCGCCAGGCTGGAG ATAACAGCCTCT TGCCCGTCGGCCCTGCGTCGGCCCTGGGGTACCATGTGGCCACAACTGCTGTG GCCCCCTGTCCC CAAGACACTTCCCCTTGTCTCCCTGGTTGCCTCTCTTGCCCCTTGTCCTGAAGCC CAGCGACACAG AAGGGGGTGGGGCGGGTCTATGGGGAGAAAGGGAGCGAGGTCAGAGGAGG GCATGGGTTGG CAGG 4240 MFGE8 HSX2_01056096 503 GTGGGCGTTTGGGGCCCTCTATGCTGGCTTTTCACCCCAGAGGACACAGGCAG CTTCCAAAATAT ATTTATCTTCTTCACGGGAA 4240 MFGE8 HSX2_01056103 504 GGACTGGCAGCAGTAAGATCTTCCCTGGCAACTG 4240 MFGE8 HSX2_02508672 505 ATCTTCCCTGGCAACTGGGACAACCACTCCCACAAGAAGAACTTGTTTGAGAC GCCCATCCTGGC TCGCTATGTGCGCATCCTGCCTGTAGCCTGGCACAACCGCATCGCCCTGCGCCT GGAGCTGCTGG GCTGTTAGTGGCCACCTGCCACCCCCAGGTCTTCCTGCTTTCCATGGGCCCGCT GCCTCTTGGCTT CTCAGCCCCTTTAAATCACCATAGGGCTGGGGACTGGGGAAGGGGAGGGTGT TCAGAGGCAGC ACCACCACACAGTCACCCCTCCCTCCCTCTTTCCCACCCTCCACCTCTCACGGGC CCTGCCCCAGC CCCTAAGCCCCGTCCCCTAACCCCCAGTCCTCACTGTCCTGTTTTCTTAGGCACT GAGGGATCTGA GTAGGTCTGGGATGGACAGGAAAGGGCAAAGTAGGGCGTGTGGTTTCCCTGC CCCTGTCCGGAC CGCCGATCCCAGGTGCGTGTGTCTCTGTCTCTCCTAGCCCCTCTCTCACACATC ACATTCCCATGG TGGCCTCAAGAAAGGCCCGGAAGCGCCAGGCTGGAGATAACAGCCTCTTGCC CGTCGGCCCTGC GTCGGCCCTGGGGTACCATGTGGCCACAACTGCTGTGGCCCCCTGTCCCCAAG ACACTTCCCCTT GTCTCCCTGGTTGCCTCTCTTGCCCCTTGTCCTGAAGCCCAGCGACACAGAAGG GGGTGGGGCG GGTCTATGGGGAGAAAGGGAGCGAGGTCAGAGGAGGGCATGGGTTGGCAG GGTGGGCGTTTG GGGCCCTCTATGCTGGCTTTTCACCCCAGAGGACACAGGCAGCTTCCAAAATA TATTTATCTTCTT CACGGGAA 4257 MGSTT HSX2_01057030 506 GTTTTTGCCAATCCAGAAGACTGTGTAGCATTTGGCAAAGGAGAAAATGCCAA GAAGTATCTTCGAACAGATGACAGAGTAGAACGTGTAC 4281 MID1 HSX2_01057790 507 ACTGTAAAGGATCAGAAAGTCATTGGCAGAGAGAAGCAGCAGTATTACCCTA GGAATAGGAGAA AGTGGGTCAGCAACTCCCTACAGGCAAGACTGATGGGGAGAAGATGCATTTC AAGACGCGAAAGAAAACTGACTCTAGATGTAGAGAAG 54471 MIEF1 HSX2_01794393 508 GTGGTGACAGCTGACCACATCCAACTCATTGTGCCCCTTGTGCTGGAGCAGAA CCTGTGGTCATG TATTCCTGGTGAAGACACCATCATGAATGTCCCTGGCTTCTTCCTGGTGCGTCG TGAGAATCCAGA GTACTTTCCTCGTGGGAGCAGTTACTGGGACCGCTGTGTAGTAGGGGGCTACC TCTCTCCAAAGA CAGTCGCAGATACATTTGAGAAGGTAGTGGCTGGCTCCATCAATTGGCCAGCC ATAGGGTCCCTC TTGGACTATGTGATCCGCCCGGCCCCACCCCCAGAAG 10962 MLLTT1 HSX2_01539260 509 GTACTGGGTCACAGGGATTCCTCCTTTCCCCCCCAAATATTAACTCCAGAAACT AGGCCTGACTGG GGACACCTGAGAGTAGTATAGTAGTGCAAAATGGAAGACTGATTTTTGACTCT ATTATAATCAGC TTCAGAGATTCCTTAAACCTTCCTAATTTCCTGCTCCAGGGCAGTAAACACAAA TATTTCTTCAAGG GGTGATGAAAACCTCGGAAGTTTTAATTTGAGGTTATCTGCTACGAAACAGTA TTTCTAAAAGGCT AAAGTGATAAGTCTCTTGCTTTTTTTTGATCCTGCTCTTATATTCTTTTTTTTCCT CAGAGAAATCAG GAGGGTAGTTAGAGGTATAAAACAGGAGGAAATATTATGGAAAATGAAAATA GGGAAAATAATT GAATCATTTTAGAAGTAGCTAATTTCTTTTCTCAAAAGAGTGTCCCTTCTTCACA CCTACTCACTTT ACAACTTTGCTCCTAACTGTGGGTTGAAAACTCTAGCTAAAGAAAGTTATCAA ATCTTAACATGCA TTCCTACTATTATGATAGTTTTTAAGGTTTCAATTCAATCTTCTGAACGGCATAA GTCCTATTTTAG CCTTACCTCCTGCATTTGCAATACGTAATACTGATCAGTGGGCACAGTTCTTCA GCTACATTGAGA CCCTGAAATGAACAATTATATTCTGACTCGACATCTTGTCCCCAATCCTTCCAAA AATATTGATGGT GATTTGTGCTACCATTTACTCGTTTATTTAATAAAGACATTCAATCCCA 4301 MLLT4 HSX2_01059895 510 AGTAGAGTTAAGCCCAGATGGTTCTGACTCTAGA 4301 MLLT4 HSX2_01059916 511 CTGAAGATTCATTTTTGTCTGCCATTATAAATTATACTAATAGCTCTACAGTCCA CTTTAAGTTGTC CCCTACATATGTATTATATATGGCATGCCGGTATGTATTGTCCAACCAGTACAG ACCTGACATCAG CCCTACAGAGCGCACACATAAAGTCATTGCAGTCGTCAACAAGATGGTGAGCA TGATGGAGGGT GTCATCCAG 4301 MLLT4 HSX2_01060018 512 GACCAAACTCTTACCCAGGATCTACTGGAGCAGCTGTTGGAGCCCATGACGCC TGTCGGGATGCA AAAGAGAAGCGCTCTAAAAG 4301 MLLT4 HSX2_01060025 513 GAGAAGCGCTCTAAAAGCCAAGATGCAGATTCAC 4301 MLLT4 HSX2_02508915 514 AGGTGCTGCAGATGATGGATGGACGTCTAGCTGC 84954 MPND HSX2_02118356 515 ATCTCCTTGGCCAGCAGGACGCCCAAGGACCAGAGCCTGTGTCACGTCCTGGA ACAGGTGTGCG GCGTCCTCAAGCAGGGGAGCTGAGCCTTCCAGGGCAGGGTGGGCTCCAGTTG TCTTGAGGGTCC GGATGGGCTCAGGTAATAAAGAAACGGAAGCAGCA 10205 MPZL2 HSX2_01479681 516 CTCTTTGGCCTATAGCAGCTGTGGAAATTTATACCTCCCGGGTGCTGGAGGCT GTTAATGGGACA GATGCTCGGTTAAAATGCACTTTCTCCAGCTTTGCCCCTGTGGGTGATGCTCTA ACAGTGACCTGGAATTTTCGTCCTCTAGACGGGGGACCTGAGCAGTTT 10205 MPZL2 HSX2_01479685 517 GTATTCTACTACCACATAGATCCCTTCCAACCCATGAGTGGGCGGTTTAAGGAC CGGGTGTCTTG GGATGGGAATCCTGAGCGGTACGATGCCTCCATCCTTCTCTGGAAACTGCAGT TCGACGACAATG GGACATACACCTGCCAGGTGAAGAACCCACCTGATGTTGATGGGGTGATAGG GGAGATCCGGCT CAGCGTCGTGCACACTG 10205 MPZL2 HSX2_01479690 518 TACGCTTCTCTGAGATCCACTTCCTGGCTCTGGCCATTGGCTCTGCCTGTGCAC TG 10205 MPZL2 HSX2_01479691 519 ATGATCATAATAGTAATTGTAGTGGTCCTCTTCCAGCATTACCGGAAAAAGCG ATGGGCCGAAAG AGCTCATAAAGTGGTGGAGATAAAATC 10205 MPZL2 HSX2_01479697 520 AAAAGAAGAGGAAAGGCTCAACCAAGAGAAAAAGGTCTCTGTTTATTTAGAA GACACAGACTAA CAATTTTAGATG 10205 MPZL2 HSX2_01479701 521 GAAGCTGAGATGATTTCCAAGAACAAGAACCCTAGTATTTCTTGAAGTTAATG GAAACTTTTCTTT GGCTTTTCCAGTTGTGACCCGTTTTCCAACCAGTTCTGCAGCATATTAGATTCT AGACAAGCAACA CCCCTCTGGAGCCAGCACAGTGCTCCTCCATATCACCAGTCATACACAGCCTCA TTATTAAGGTCT TATTTAATTTCAGAGTGTAAATTTTTTCAAGTGCTCATTAGGTTTTATAAACAAG AAGCTACATTTT TGCCCTTAAGACACTACTTACAGTGTTATGACTTGTATACACATATATTGGTAT CAAAAGGGATAA AAGCCAATTTGTCTGTTACATTTCCTTTCACGTATTTCTTTTAGCAGCACTTCTG CTACTAAAGTTAA TGTGTTTACTCTCTTTCCTTCCCACATTCTCAATTAAAAGGTGAGCTAAGCCTCC TCGGTGTTTCTG ATTAACAGTAAATCCTAAATTCAAACTGTTAAATGACATTTTTATTTTTATGTCT CTCCTTAACTATG AGACACATCTTGTTTTACTGAATTTCTTTCAATATTCCAGGTGATAGATTTTTGT TGTTTTGTTAATT AATCCAAGATTTACAATAGCACAACGCTAAATCACACAGTAACTACAAAAGGT TACATAGATATG AAAAGATTGGCAGAGGCCATTGCAGGATGAATCACTTGTCACTTTTCTTCTGT GCTGGGAAAAAT AATCAACAATGTGGGTCTTTCATGAGCAGTGACGGATAGTTTAGCTTACTATG TTTCCCCCCCAAT TCAATGATCTATAACAACAGAGCAAAGTCTATGCTCATTTGCAGACTGGAATC ATTAAGTAATTTA ATAAAAAAATTGTGAAACAGCATATTACAAGTTTGAAAATTCAGGGCTGGTGA AAAAAATCAACT CTAAATGATGATAATTTTGTACAGTTTTATATAAAACTCTGAGAACTAGAAGAA ATTATTAACTTTT TTTCTTTTTTAATTCTAATTCACTTGTTTATTTTGGGGGAGGAAGACTTTGGTAT GGAGCAAAGAA ATACCAAAACTACTTTAAATGGAATAAAACCAACTTTATTCTTTTTTTCCCCCAT ACTGGTAGATAA AGCAAACTTTATAAGTGGGCTATTGAAAGAAAAGTTACAAGCTTAAGATACAG AAGCATTTGTTC AAAGGATAGAAAGCATCTAAAAGTTTAGGCTCAAGATCAATCTTTACAGATTG ATATTTTCAGTTT TTAATCGACTGGACTGCAGATGTTTTTTCTTTTAACAAACTGGAATTTTCAAAC AGATTATCTGTAT TTAAATGTATAGACCTTGATATTTTTCCAATACTATTTTTTAAAAAATTGTATGA TTTACATATGAAC CTCAGTTCTGAAATTCATTACATATCTGTCTCATTCTGCCTTTTATACTGTCTAAA AAAGCAAAGTT TTAAAGTGCAATTTTAAAACTGTAAATTACATCTGAAGGCTATATATCCTTTAA TCACATTTTATAT TTTTTCTTCACAATTCTAACCTTTGAAAATATTATAACTGGATATTTCTTCAAAC AGATGTCCTGGAT GATGGTCCATAAGAATAATGAAGAAGTAGTTAAAAATGTATGGACAGTTTTTC CGGCAAAATTTG TAGCTTATGTCTTGGCTAAATAGTCAAGGGGTAATATGGGCCTGTTGTTTAGT GTCTCCTTCCTAA AGAGCACTTTTGTATTGTAATTTATTTTTTATTATGCTTTAAACACTATGTAAAT AAACCTTTAGTAA TAAAGAATTATCAGTTATATAA 10205 MPZL2 HSX2_01479703 522 ACTAACAATTTTAGATGGAAGCTGAGATGATTTC 10205 MPZL2 HSX2_01479705 523 GTAAGGTTCACAAATAGGTTGATTTCTTTCTTCAGCTTTCTGACATGTCCAGCC CATCTCTAATGAG GACTCCCAGATCATCACTTTATGGCTGTTAGGTGTTTCCCATATGAAATTAGAG GAGCTGGGTCA GGGAGACAAAAGTCTTCTATTAGTCTTATGGATAGCTCCTCCTTGAGTGTATTT TGTGCAAAAGAT TAAGAAGCTGGACTCTACTGCCATTAAAGCTGAGAGAATCCTAAGGTTATTTG TGGCTTCGGGGT TATATTTATTACTACTACTACTAATAAATATTCAACAAGTAAATAAATCTTTTTT AAATCAA 10205 MPZL2 HSX2_01479706 524 ACTAACAATTTTAGATGGTAAGGTTCACAAATAG 10205 MPZL2 HSX2_02534823 525 TACGCTTCTCTGAGATCCACTTCCTGGCTCTGGCCATTGGCTCTGCCTGTGCAC TGATGATCATAA TAGTAATTGTAGTGGTCCTCTTCCAGCATTACCGGAAAAAGCGATGGGCCGAA AGAGCTCATAAA GTGGTGGAGATAAAATC 9902 MRC2 HSX2_01451912 526 GGGGCCCCAGAGGAGCAGGAGTCTGGGAGGGCCCAGAGTTCACCCTCTAGT GGATCCAGGAGG AGCAGCACCCGAGCCCTGGAGTGGCCCAGTACCCTTCCAAGAGGCCACAGTC CCAGCCAGGACA AAGTATGCGGCCCATCCTGGTGCGACAGCGTGGGACAATGTGAACATGGACT CGAAGACATGGC CCTTTCTCTGTAGTTGATTTTTTAAATGTGCCATTATTGTTTTTAA 4524 MTHFR HSX2_01066737 527 GACGAGGCCTTTGCCCTGTGGATTGAGCGGTGGGGAAAGCTGTATGAGGAG GAGTCCCCGTCCC GCACCATCATCCAGTACATCCACGACAACTACTTCCTGGTCAACCTGGTGGACA ATGACTTCCCAC TGGACAACTGCCTCTGGCAGGTGGTGGAAGACACATTGGAGCTTCTCAACAG 9617 MTRF1 HSX2_01419835 528 GTGGATGTGAAATTGGACCCCAAGGATTTGCGAATAGATACATTTCGAGCCAA AGGAGCAGGAG GGCAGCATGTTAATAAAACTGATAGTGCCGTCAGACTTGTCCACATCCCCACA G 54587 MXRA8 HSX2_02554391 529 GAAGGATGTTAACTTGGCGGAGTTCGCTGTGGCTGCAGGGGACCAGATGCTT TACAGGAGTGAGGACATCCAGCTAG 23077 MYCBP2 HSX2_01593794 530 GGGATGTCCCACTCTTGTTCAAGCATTGCCAGGCCCTAGCACACAAGTCACTG CAGGCAGCAACC ATACGGCAGTACTTTTAATGGATGGACAGGTCTTCACATTTGGAAGTTTTTCT 4628 MYH10 HSX2_01073103 531 TGAAACACTCCATAAGAACAATGCCCTTAAAGTTGTGCGAGAGCTACAAGCCC AAATTGCTGAAC TTCAGGAAGACTTTGAATCCGAGAAGGCTTCACGGAACAAGGCCGAAAAGCA GAAAAGGGACTT GAGTGAGGAACTGGAAGCTCTGAAAACAGAGCTGGAGGACACGCTGGACAC CACGGCAGCCCA GCAGGAACTACG 4628 MYH10 HSX2_01073190 532 CAATACAGTGGGACAGTTAGGAATGCACCCGGGGCCTCCTGCAGATTTCGGA AATTGGCAAGCT ACGGGATTCCTTCCTGAAAGATCAACTGTGTCTTAAGGCTCTCCAGCCTATGCA TACTGTATCCTG CTTCAGACTTAGGTACAATTGCTCCCCTTTTTATATATAGACACACACAGGACA CATATATTAAACA GATTGTTTCATCATTGCATCTATTTTCCATATAGTCATCAAGAGACCATTTTATA AAACATGGTAAG ACCCTTTTTAAAACAAACTCCAGGCCCTTGGTTGCGGGTCGCTGGGTTATTGG GGCAGCGCCGTGGTCGTCACTCAGTCGCTCTGCA 140469 MYO3B HSX2_02220753 533 GTGTTTCAGCTCAACTCACCAGTACACGTCTGCGGAGAAACACATCTGTTGGC ACCCCGTTCTGGATGGCCCCTGAG 4646 MYO6 HSX2_01075718 534 GGTACCTCTGAAAGTGGAGCAAGCAAACAATGCTCGTGATGCCCTGGCAAAG ACAGTGTATAGC CATCTTTTTGATCATGTGGTAAACAGAGTAAATCAGTGTTTTCCTTTTGAAACA TCATCCTATTTTA TTGGAGTCCTAGATATTGCTGGTTTTG 4664 NAB1 HSX2_01077841 535 GAGAAAGACCTTTGAATCTCCGAATGCCTAATTTACAGAACAGACAACCCCAT CATTTTGTGGTG GATGGGGAGCTGAGCAGACTTTACCCCAGTGAGGCAAAGTCCCACTCATCAG 4665 NAB2 HSX2_01077903 536 AGTTCGAGGAAGGGCTGCTGGACAGATGTCCTGCCCCAGGACCCCATCCCGC GCTGGTGGAGG GTCGCAGGAGCAGCGTGAAAGTGGAGGCTGAGGCCAGCCGGCAGTGAGGGT TGGACTGGTGTC TTCAGACCCAGGACCTCAGACTTCTGGCTCACACAGACCCCCACGCTCTCCATC CCCGGAATCTAG TCACAACCCTGGATCCTTCCTCTGCCCTTCTCCTGCCTCCCCACCTGCTCCATGG GCATAAGACTGT GGGGCTTCAAGCAATAACAAGCAGAGGCCTGGAGAGAGGACACAAGGAGGG TGCGTGGTGCCC TCACCCCTGCCCAGAGCGAGGGGGCAAGGACTCTGCCTCCAGGGCATCTGGG GTTTTCCCCTCCC TCACACAACACACTCCCATTCTCTTTAGGTTTGCACCAGTGGTGTGAGCAGTTG GACTCAGTTTGG ACAAGGGGGAAAGGGGGACTTCCCTGGGAAGGTCCAGCTAAAAGTGGCAAC ATTTGCCCCCAG AATTGGGGGCCTGGGAACACTGGACCTGCTCCTTCTCCCCTCTCCTTCCCCGTT TTTGTGCTTCTG GTTTGTTTCTTTAATTAATTTAACAAGTGCTGCAGTTTGCCCTCCCATTCCCATC TATCCCCCAAGTC CTTTGCAATTTCTTCCCTGCCCTACATAGGGGCGGTGGGTGTGGGATCCCTTCA CTGGCCCCCTCG GGAGGCCTGGGTTGGACTCAGGGTCTCCTCCAGCTGGGGGCTGGACCGCAGC ACCTATCTGAGC AGTTAGAGCGTCTTTCTTTTCAGATTGTGTACAGTAGATTATTTATTTTGTTATT TTGGAATAAAAT TTATTTTATGGCTTAGGA 89797 NAV2 HSX2_02128541 537 GAATTGCGCCAGTACCTGTCCAACCTTGCTGACCAGTGCAACAGTGAGAACAA TGCTGTGGACAT GCCCCTCGTCATCATCCTGGACAACCTACACCACGTGAGCTCTCTGGGAGAGA TCTTCAATGGGC TGCTCAACTGCAAGTACCACAAATG 26960 NBEA HSX2_01695002 538 GAGGATATCATTGGCCACTCCTCGACAGCTTTATAAATCTTCCAATATGACTCA GCGCTGGCAAAG AAGGGAAATTTCAAACTTCGAATATTTGATGTTCCTTAATACTATTGCAG 26960 NBEA HSX2_01695190 539 AATCGCCACTGGGCTCGTCACGACAGCCTCCTTCAGCTCCAACCCGGCTAATTA ATCCCCACTCAT GGATATAGGCACACAAACTAAAG 29781 NCAPH2 HSX2_01722501 540 AAGCGCAAGAGGAAGGGCGCTGCCAAGCTGCAGG 23154 NCDN HSX2_01602288 541 CTACCTGGGAGCCCTCCGTGAGGCCAAGAATGACAGCGAGCAGTTTGCAGCC CTGCT 400746 NCMAP HSX2_02394908 542 ACCACTGTCCAAAGAGCCTCTCCAGAGTCAAGACCCAGAGGCACACTCTCTGG CAGCTTCACAAT GAGCTTCTTCTGGTCAGGTCGACAGAGACATCTTTGACGCAATCTCTGATGCTT CCAGCAATCCTC AACCTTGTCTGCCCTGCCCTACCCCAACTGTGTCCACATCCCTGCCGCCACCCC ACCAAAAAGCTG CAGAACATTCTTTTGTCATCTGATGAGGTAGAGCTATGTTGGGAATCCACCAAT GTGGGCTTGGC TTTCCCCCACACTGTAGTTAGACAGATAGACAGATAGCCCAGGAGCCAGGTGT CAGGGAGCACT GCTGAGAGTATCACAATAGGATCTGTCACGGGGTTCATATCAGATGAAGCGCC GTATCCACTGCT TCACAGAGCAAAACATTCAATCCCATAACCAGGCACAGGGGAACTAACTTGGA CTAACTAACCAG AAAACCTTGTTAACGTATAACTTGTTCCAGTACTACATCTCTGCCTGCTGGCTC ATGACAATTGCTC AGCACATTTTCCCCTCTTGAAGAAAGGTTGCAAGAAGAACTAAATTATCCTCAA AAGATTTCTGCT TCATTAGTAAAGAGTCAGTGATGGAATAGGGTGACTCTGCAGAATAGTGGCC TCTAGGGTAGGA GCTTGTTGTGTTGTCCGTGGGCCTGGAATGATCCTGGTGGCTGATCAGGGTCC TTCTCCCACTCT GGGCTGTATCAACCCTGACGGTCTTGGTCTTTGGCTCCCCTTTATCTGGATTCT GAGCACGCTGAC TGTCCTGTTAATGCCTTCCCTCCAAGGACCAGTATTTGGAGATTAATTAGATTA CAACTCTATCTAT GTTACCTTTGTCCTTCCTGGTCACCTTGCAGATTCAAGACATGTTCAAAGCAAC ACATTCACAACC CATTTCTATTCTATAGCAACCTCGTCTGTGACTCCTTAGCCTGGAGAACAATCT ACCAAGAAGAGA AAGTATCTGGAATTAAGAAGTCCTACCATCCAAGCCCTACTTCCTGGTTGTGTG GCCTTGGAAAA GTGACTCAACCTCTTTATATTCAGTTTCCTAACCATGAAGTGGAAATGATAACA CCTGCCTCATTG GGGCACTATAACAAGTGAAGGACTTAGGAAAACATCTGGAGTATAGCGCCTG GCACCCAGGAGA TGCTTAATAAATGGGAACCAGGATTCTTTTTCTTTTCTTTTTTCTTTTCTTTTTTTT TTTTTTTGAGAC AGAGCCTCAATCTGTCACCTGG 8202 NCOA3 HSX2_01324111 543 CTCCTTTTCCCAGCAGCAGTTTGCCCACCAGGGGAATCCTGCAGTGTATAGTAT GGTGCACATGA ATGGCAGCAGTGGTCACATGGGACAGATGAACATGAACCCCATGCCCATGTCT GGCATGCCTAT GGGTCCTGATCAG 25915 NDUFAF3 HSX2_01668012 544 GGTCCGGTTCGGCCTGGCAGGTGTTCGGGACGCG 4753 NELL2 HSX2_01086049 545 GGTATAATGCAAGATGTCCAATTACTTGTCATGCCCCAGGGATTTATTGCTCAG TGCCCAGATCTT AATCGCA 25825 BACE2 HSX2_01660260 546 TTTACATTCAGCCCATGATGGGGGCCGGCCTGAATTATGAATGTTACCGATTC GGCATTTCCCCAT CCACAAATGCGCTGGTGATCGGTGCCACGGTGATGGAGGGCTTCTACGTCATC TTCGACAGAGC CCAGAAGAGGGTGGGCTTCGCAGCGAGCCCCTGTGCAG 4781 NFIB 4781.006.2-B 547 CCTGGAACTCTAGCACGCCGAGTGAACTTGAATCTTTGGCTATTTAAGGAGGA CTGGGTTTGTTG TGAAGTTGCGGTGATCCAGCGCAGAGCCCCGTCCTGATTGATCGCATCGCGG GGCTCAGATGAC TGTAAAATGAATAGATGAAATTCTTGCTTCTCGAAGATTTTCTTGGGCATCTCC CGGAAAGTGCGT TTTAAGGCGAAGTCATGATGTATTCT 4781 NFIB HSX2_01087767 548 TTTGGCTATTTAAGGAGGACTGGGTTTGTTGTGA 57185 NIPAL3 HSX2_01915059 549 AAAAAAAAAAGTACTAGGTGCAAATAACATTATGAAGTGGTATTTAATTAAAA ATCCATGCAGTG ACAGCTGA 79159 NOL12 HSX2_02004046 550 GATCTCCTCCCTCACAGCATCACTACATGCACACAGCCGCAAAAAGGTCAAGA GGAAACATCCCC GACGGGCCCAGGACTCCAAAAAGCCCCCAAGGGCCCCTCGTACCAGCAAGGC CCAGCGCCGCC GTCTCACAGGCAAAGCACGGCACAGCGGGGAGTGAGACCGAGAACGAAGCG GTGCCCCAGTCT AGGCTGCGGGGACCTGTCCTTGCTCAGCTTGGCTGTCCCTGTAGCCCAGCCTG CACCTAG 7064 THOP1 HSX2_01266163 551 GAACCAACATGCCTGCAACCTTCGGCCATCTGGCAG 7064 THOP1 HSX2_02521832 552 GAACCAACATGCCTGCAACCTTCGGCCATCTGGCAGGTGGCTACGACGCCCAG TACTACGGGTA CCTGTGGAGCGAGGTGTATTCCATGGACATGTTCCACACGCGCTTCAAGCAGG AGGGTGTCCTGAACAGCAAG 124056 NOX01 HSX2_02190737 553 CGGTCAGGCCAGCCTGGATGCACCACTGTTGGGA 10577 NPC2 HSX2_01512515 554 GTTCTGTGGATGGAGTTATAAAGGAAGTGAATGTGAGCCCATGCCCCACCCA ACCCTGCCAGCTG AGCAAAGGACAGTCTTACAGCGTCAATGTCACCTTCACCA 10577 NPC2 HSX2_02536964 555 GTTCTGTGGATGGAGTTATAAAGGAAGTGAATGTGAGCCCATGCCCCACCCA ACCCTGCCAGCTG AGCAAAGGACAGTCTTACAGCGTCAATGTCACCTTCACCAGCA 10577 NPC2 HSX2_02536987 556 GTTTCTCATCTCTAAGTGCCTCATTGAGTTCGGTGCATCTGGCCAATGAGTCTG CTGAGACTCTTG ACAGCACCTCCAGCTCTGCTGCTTCAACAACAGTGACTTGCTCTCCAATGGTAT CCAGTGATTCGT TGAAGAGGAGGTGCTCTGTAGCAGAAACTGAGCTCCGGGTGGCTGGTTCTCA GTGGTTGTCTCA TGTCTCTTTTTCTGTCTTAGGTGGTTTCATTAAATGCAGCACTTGGTTAGCAGAT GTTTAATTTTTTT TTTAACAACATTAACTTGTGGCCTCTTTCTACACCTGGAAATTTACTCTTGAATA AATAAAAACTCG TTTGTCTTGTC 56654 NPDC1 HSX2_01896007 557 ACCTCGAGGCCCCCGGGGAGGGGCAGGGCCTGGAGCTTCCCACTAAAAACAT GTTTTGATGCTG TGTGCTTTTGGCTGGGCCTCGGGCTCCAGGCCCTGGGACCCCTTGCCAGGGAG ACCCCCGAACC TTTGTGCCAGGACACCTCCTGGTCCCCTGCACCTCTCCTGTTCGGTTTAGACCC CCAAACTGGAGG GGGCATGGAGAACCGTAGAGCGCAGGAACGGGTGGGTAATTCTAGAGACAA AAGCCAATTAAA GTCCATTTCAGACCTGCGGCTTCTG 1728 NQO1 HSX2_00881265 558 GCAGAAGAGCACTGATCGTACTGGCTCACTCAG 1728 NQO1 HSX2_02498359 559 AGTAAGAAGGCAGTGCTTTCCATCACCACTGGTGGCAGTGGCTCCATGTACTC TCTGCAAGGGAT CCACGGGGACATGAATGTCATTCTCTGGCCAATTCAG 4897 NRCAM HSX2_01095706 560 GATCACCATTGTGGACCAAAGAAAAACTTGAACCAATCACACTTCAAAGTGGT CAGTCTTTAGTA CTTCCCTGCAGACCCCCAATTGGATTACCACCACCTATAATATTTTGGATGGAT AATT 4897 NRCAM HSX2_01095731 561 CGGCTCCATACTGGATCACAGCCCCTCAAAATCTTGTGCTGTCCCCAGGAGAG GATGGGACCTTG ATCTGCAGAGCTAATGGCAACCCCAAACCCAGAATTAGCTGGTTAACAAATGG AGTCCCAATAGA AA 4897 NRCAM HSX2_01095756 562 GTTCACTGTTGACAAGGATCATCTAGTGGTAGCTGATGTCAGTGACGATGACA GCGGGACCTACA CGTGTGTGGCCAACACCACTCTGGACAGCGTCTCCGCCAGCGCTGTGCTTAGC GTTGTTG 4897 NRCAM HSX2_01095795 563 TCCCCAGTGCTCCCTCGTCTTTGAAGATTGTGAATCCAACACTGGACTCTCTCA CTTTGGAATGGG ATCCACCGAGCCACCCGAATGGCATTTTGACAGAGTACACCTTAAAGTATCAG CCAA 4897 NRCAM HSX2_01095798 564 TAATACTCCAGAAGGAGTCCCCAGTGCTCCCTCG 4897 NRCAM HSX2_01095800 565 TTAACAGCACACATGAATTAGGCCCTCTGGTAGATTTGAAAATTCCTGCCAACA AGACACGGTGG ACTTTAAAAAATTTAAATTTCAGCACTCGATATAAGTTTTATTTCTATGCACAAA CATCAGCAGGAT CAGGAAGTCAAATTACAGAGGAAGCAGTAACAACTGTGGATGAAG 4897 NRCAM HSX2_01095803 566 CTTAAAGTATCAGCCAATTAACAGCACACATGAA 4897 NRCAM HSX2_01095810 567 TTAAAGAAAAGGAAGATGCCCATGCTGACCCTGAAATCCAGCCTATGAAGGA AGATGATGGGAC ATTTGGAGAATACAG 4897 NRCAM HSX2_01095844 568 GGAAGTACCTCTTGATCTGGTACAGCCTCCAACC 4907 NT5E HSX2_01096741 569 ATTAACAACAACCTGAGACACACGGATGAAATGTTCTGGAACCACGTATCCAT GTGCATTTTAAAT GGAGGTGGTATCCGGTCGCCCATTGATGAACGCAACAATG 4915 NTRK2 HSX2_02510945 570 GCGTCAGCCCTCACGTCACTTCGCCAGCAGTAGCAGAGGCGGCGGCGGCGGC TCCCGGAATTGG GTTGGAGCAGGAGCCTCGCTGGCTGCTTCGCTCGCGCTCTACGCGCTCAGTCC CCGGCGGTAGC AGGAGCCTGGACCCAGGC 4926 NUMA1 HSX2_02511046 571 CTTTCTCTCAGGTTCTCCAGCTTCTCCCATGGGTGATATCCTGCAGACCCCACA GTTCCAGATGAG ACGGCTGAAGAAGCAGCTTGCTGATGAGAGAAGTAATAGGGATGAGCTGGA GCTGGAGCTAGC TGAGAACCGCAAGCTCCTCACCGAGAAGG 9688 NUP93 HSX2_01427660 572 GGATGAGAAAGATAGTCAAGGAGAAAACATGTTTCTGCGCTGTGTGAGTGAG CTTGTGATTGAA AGCCGAGAG 91775 NXPE3 HSX2_02574394 573 AGGAAGCGGGGGGCTAGCGGCCTGGCGCTGCGGCGACCGACCGGGGCGTCA GGATCCCTGGC CCCCGGAGAGCGAAGGGCGGGCGGGTCCCGGAG 4967 OGDH HSX2_01100520 574 CCCTGGGGATTTTGGATGCTGATCTGGACTCCTCCGTGCCCGCTGACATTATCT CATCCACAGACA AACTT 283208 P4HA3 HSX2_02325767 575 TGGCCAACAAGTGGATACATGAGTATGGACAGGAATTCCGCAGACCCTGCAG CTCCAGCCCTGA AGACTGAACTGTTGGCAGAGAGAAGCTGGTGGAGTCCTGTGGCTTTCCAGAG AAGCCAGGAGCC AAAAGCTG 5053 PAH HSX2_01105450 576 GAGACTCCATAAAGGCATATGGTGCTGGGCTCCTGTCATCCTTTGGTGAATTA CAG 5066 PAM HSX2_01106278 577 ACAGCCTTTAATTGCTGGCATGTACCTTATGATGTCTGTTGACACTGTTATCCC AGCAGGAGAAAA AG 5087 PBX1 HSX2_01107803 578 GAGCAGAAGAGGAAGAGCCGGGGGCTGCCGTAGCCTTTGGAGATGGACGAG CAGCCCAGGCT GATGCATTCCCATGCTGGGGTCGGGATGGCCGGACACCCCGGCCTGTCCCAG CACTTGCAGGAT GGGGCCGGAGGGACCGAGGGGGAGGGCGGGAG 5087 PBX1 HSX2_01107842 579 CCAACGTGCAATCACAGGTGGATACCCTTCGCCA 5090 PBX3 HSX2_01107983 580 GAAGCAGGACATCGGCGACATCCTCCACCAGATCATGACCATCACCGACCAGA GCTTGGACGAG GCGCAAGCAAA 5090 PBX3 HSX2_01107986 581 GCGGACGGCGACGGCAGGAAGCAGGACATCGGCG 5090 PBX3 HSX2_01107988 582 GAAACATGCCCTGAACTGTCACAGAATGAAACCAGCGCTCTTCAGCGTCCTGT GTGAGATCAAAG AGAAAACAG 5090 PBX3 HSX2_01107991 583 GACGAGGCGCAAGCAAAGAAACATGCCCTGAACT 5090 PBX3 HSX2_01107992 584 GTCTCAGCATCAGAGGAGCCCAGGAGGAGGACCCTCCCGATCCCCAGCTAAT GAGACTGGACAA TATGCTTTTGGCAGAAGGGGTTTCAGGTCCTGAGAAAG 5090 PBX3 HSX2_01107994 585 CCGCGGCAGCCTCTGGAGGTTCTTCAGATAACTCTATTGAACACTCAGATTACA GAGCCAAATTG ACCCAGATCAGACAAATCTATCACACAGAACTGGAGAAATATGAACAG 5090 PBX3 HSX2_01107996 586 GGCGGCAGCAGCTGCAGCCGCGGCAGCCTCTGGA 5090 PBX3 HSX2_01107998 587 GATCAAAGAGAAAACAGGTCTCAGCATCAGAGGA 5090 PBX3 HSX2_01108000 588 GCATGTAATGAATTTACTACACATGTGATGAACCTTCTCCGAGAACAGAGTAG AACACGTCCCATT TCTCCAAAAGAGATTGAAAGAATGGTGGGCATCATCCATCGAAAATTTA 5090 PBX3 HSX2_01108001 589 GTTCCATTCAGATGCAGCTCAAACAAAGCACTTGTGAAGCAGTTATGATTTTAA GATCAAGGTTCC TTGATGCCAG 5090 PBX3 HSX2_01108005 590 TGGAGAAATATGAACAGGCATGTAATGAATTTAC 5090 PBX3 HSX2_01108007 591 ACGGAAAAGGCGTAACTTCAGTAAACAGGCCACAGAAATCTTGAATGAATATT TTTACTCACACC TCAGCAACCCCTACCCCAGTGAAGAAGCCAAAGAGGAGCTGGCCAAGAAATG CAGCATCACAGT GTCACAG 5090 PBX3 HSX2_01108012 592 GTATCCAATTGGTTTGGCAACAAACGAATCAGGTACAAGAAGAACATTGGCA AGTTTCAGGAAG AAGCCAACCTCTATGCTGCAAAGACGGCCGTGACAGCTGCACACGCAGTAGC AGCAGCTGTGCA GAACAACCAGACCAATTCGCCCACCACACCAAA 5090 PBX3 HSX2_01108019 593 AGTCGGAGCCAATGTGCAATCACAGGTTCTTCTGGTTCTTTTAACCTCCCAAAT TCTGGGGACATG TTCATGAACATGCAGAGTCTGAATGGGGATTCTTACCAAGGGTCCC 5090 PBX3 HSX2_01108031 594 GCTAATGGAGGCTGGCAGGACGCAACAACTCCATCTTCTGTGACTTCTCCTAC AGAAGGCCCAGG AAGTGTGCACTCGGATACCTCTAACTAATCTCTGGCCACACTTTTCCCTGAGCT ACATGCCTTGAT AAGTGCATTCAGAGCAATAGGAGGAAAAGGAAAGCGTTTTTGTAGCCCACCA TCTACAGCTTTAC TGTAAAACCTTGTCTTATTCGAGAACTTGGTAAATCTGTTTTTTAAGGAATCAT AATCATTTGTATT TATACTTAAAAACACACAATGTTAAAAAAAATAAAGCACTTTATCCAATTAGGC CAAGATTTAACA TTGTTGACAGTCCTGTAGCTATTTTATCATAATTTATTATCAATATTTTACATTA ATGGTTTCACAGT TGCCAATTACTTGGCCTTAAGGGTAAAAAGTACAATATACACTAAACCTCAACC 5090 PBX3 HSX2_01108032 595 GTTAAAGCAGATGCAAAAATTCACCTCACCTAAATTGAACTTCTTGCATATTTC CATTACTGACTTG GATTGTCTTTCTTTCATATCACTAATGGAGTTGGAATAAAGAGCTGTTTGCCTA TCCCTGTTAATGA TGGTTGTGTTTAAGAATCTTCCTCGTCACGTTTGTGTTCAGATCTCTTATGTTAT AATTAGATCAGA GACTGGTAGCATCGTTTCTCTCTCTGAAAGCACCAGTGCCCAGAGTCTGCTCG GTAATAAAATTAT GGATCCAGATTGTTCTGAGAGACGAAGATACTTGCTGCTGATAGAGGTGAAA ACGAGATTGATC CGTCTGGGGTTTTACGGTGTGCACTGGGTGCTGCACAGACTTGTCAAGGTTTG CTACGTCCTCTG GGCATCTGCAAAAGGCCCTGCTCTCTGGAGTGTTGTATATAGTGTAGCAAAAG AGTATTTATACA TCCCACCAATCAAAACACAGCTTTATTACCTCATGCGAACTCATACAAACCAAT AGAATTTCAACA TGTTCTGTAGCTTAGAGTGCTCACTTACTACCTCTGAACAATACTCACGCTGTA GTTTGTCTCTTTC TTATCTTTTTGCATCTTGTAATTAACTCTTTGTTTCCCTTCATAAAATGTAATGTA CATTGTAATCTTT TAAAAGAAAAATCAGGGTTGCACTTGCAACTTTTAAAAAACCGAGTGTGGAAA CATTGGGTCTTA ATTCAACACAGGATCGGTAAAACTGTTGTAAATACTGAGAAACATTTTGAATG TTCTTCATCTTATT ACTAATCCATGCAA 5090 PBX3 HSX2_02511701 596 CCGCCGCCGCCGCCGCCGCCTCAGCCTTCGCCTCAGCCGCCGCCCGCTCCCGC CCGCGCGCGGC GGGATGGACGATCAATCCAGGATGCTGCAGACTCTGGCCGGGGTGAACCTGG CTGGCCACTCGG TGCAGGGGGGCATGGCCCTGCCGCCTCCCCCGCACGGCCACGAAGGGGCGG ACGGCGACGGCA GGAAGCAGGACATCGGCGACATCCTCCACCAGATCATGACCATCACCGACCA GAGCTTGGACGA GGCGCAAGCAAA 5090 PBX3 HSX2_02511702 597 GTCTCAGCATCAGAGGAGCCCAGGAGGAGGACCCTCCCGATCCCCAGCTAAT GAGACTGGACAA TATGCTTTTGGCAGAAGGGGTTTCAGGTCCTGAGAAAGGTGGGGGATCGGCG GCAGCAGCTGC AGCCGCGGCAGCCTCTGGAGGTTCTTCAGATAACTCTATTGAACACTCAGATT ACAGAGCCAAAT TGACCCAGATCAGACAAATCTATCACACAGAACTGGAGAAATATGAACAG 5090 PBX3 HSX2_02511706 598 GCATGTAATGAATTTACTACACATGTGATGAACCTTCTCCGAGAACAGAGTAG AACACGTCCCATT TCTCCAAAAGAGATTGAAAGAATGGTGGGCATCATCCATCGAAAATTTAGTTC CATTCAGATGCA GCTCAAACAAAGCACTTGTGAAGCAGTTATGATTTTAAGATCAAGGTTCCTTG ATGCCAG 5090 PBX3 HSX2_02511710 599 GTATCCAATTGGTTTGGCAACAAACGAATCAGGTACAAGAAGAACATTGGCA AGTTTCAGGAAG AAGCCAACCTCTATGCTGCAAAGACGGCCGTGACAGCTGCACACGCAGTAGC AGCAGCTGTGCA GAACAACCAGACCAATTCGCCCACCACACCAAATTCCG 5090 PBX3 HSX2_02511713 600 GCTAATGGAGGCTGGCAGGACGCAACAACTCCATCTTCTGTGACTTCTCCTAC AGAAGGCCCAGG AAGTGTGCACTCGGATACCTCTAACTAATCTCTGGCCACACTTTTCCCTGAGCT ACATGCCTTGAT AAGTGCATTCAGAGCAATAGGAGGAAAAGGAAAGCGTTTTTGTAGCCCACCA TCTACAGCTTTAC TGTAAAACCTTGTCTTATTCGAGAACTTGGTAAATCTGTTTTTTAAGGAATCAT AATCATTTGTATT TATACTTAAAAACACACAATGTTAAAAAAAATAAAGCACTTTATCCAATTAGGC CAAGATTTAACA TTGTTGACAGTCCTGTAGCTATTTTATCATAATTTATTATCAATATTTTACATTAA TGGTTTCACAGT TGCCAATTACTTGGCCTTAAGGGTAAAAAGTACAATATACACTAAACCTCAACC GTTAAAGCAGAT GCAAAAATTCACCTCACCTAAATTGAACTTCTTGCATATTTCCATTACTGACTTG GATTGTCTTTCTT TCATATCACTAATGGAGTTGGAATAAAGAGCTGTTTGCCTATCCCTGTTAATGA TGGTTGTGTTTA AGAATCTTCCTCGTCACGTTTGTGTTCAGATCTCTTATGTTATAATTAGATCAGA GACTGGTAGCA TCGTTTCTCTCTCTGAAAGCACCAGTGCCCAGAGTCTGCTCGGTAATAAAATTA TGGATCCAGATT GTTCTGAGAGACGAAGATACTTGCTGCTGATAGAGGTGAAAACGAGATTGAT CCGTCTGGGGTT TTACGGTGTGCACTGGGTGCTGCACAGACTTGTCAAGGTTTGCTACGTCCTCT GGGCATCTGCAA AAGGCCCTGCTCTCTGGAGTGTTGTATATAGTGTAGCAAAAGAGTATTTATAC ATCCCACCAATCA AAACACAGCTTTATTACCTCATGCGAACTCATACAAACCAATAGAATTTCAACA TGTTCTGTAGCTT AGAGTGCTCACTTACTACCTCTGAACAATACTCACGCTGTAGTTTGTCTCTTTCT TATCTTTTTGCAT CTTGTAATTAACTCTTTGTTTCCCTTCATAAAATGTAATGTACATTGTAATCTTTT AAAAGAAAAATC AGGGTTGCACTTGCAACTTTTAAAAAACCGAGTGTGGAAACATTGGGTCTTAA TTCAACACAGGA TCGGTAAAACTGTTGTAAATACTGAGAAACATTTTGAATGTTCTTCATCTTATTA CTAATCCATGCA A 80714 PBX4 HSX2_02053487 601 CATGGCCGCCCCGCCGCGCCCCGCGCCATCGCCCCCCGCCCCGCGGCGCCTCG ACACGAGCGAC GTCCTGCAGCAGATCATGGCCATCACCGACCAGAGCCTGGACGAGGCACAGG CCAG 80003 PCNXL2 HSX2_02036459 602 CATGTGAGTCAGGATCTGGAAGCCTCGTCATGTTCTTCAACACAAGGAAAATT TAACCGAGAGCA GTTTTACAAATTTATCATTTTCCCTGGCAAGTGGATTAAAGTCTGGTATGATCG ACTGACCTTGCT GGCATTACTTGATCG 80003 PCNXL2 HSX2_02036493 603 GGGCCAAAGCCAGGCACCCTCCCAGTTACGTTGTGTATGGCCTGAAGCTCTTC TCTCCAGTGTTTC TACAATCAGCTAGGGACTACTTAATAG 80003 PCNXL2 HSX2_02036518 604 GAACCGTGGAGCATGCAACACATCCCGGCACTGTTTTCGGCCTTCTGTGGCCT CTTGGTCGCCCTT TCTTACCATCTGAGCCGTCAGAGCAGTGACCCATCTGTACTCAT 80003 PCNXL2 HSX2_02036531 605 ACGGATGTCTTAAAATGGGATCTCATCGTCTGCGCAGTGGTTGCTGTCCTCTCA TTTGCAGTCAGC GCCAGCACTGTATTCCTGTCATTGCGA 80003 PCNXL2 HSX2_02036542 606 ATGTTGCCCATTTAATGTGGTTCGAAAGACTCTATGTTTGGCTTCAGTGTTTTG AAAAATACATCTT GTACCCAGCGCTAATTTTGAATGCCCTCACTATTGATGCATTTTTAATAAGCAA TCACCGGAGACT TGGTACCCA 80003 PCNXL2 HSX2_02036681 607 CACCTCTCCGAGCCATGTGAGCCCCCTGATGCCACCGAGCAGGGGCAGCTTCA TGACCGATGTCT GGCTGAGGCTGTGGCGGACACTCTCGGGGTTGTCTGCAGGAGAGCAAGCCAG GAGGACATGGG CCTGGACGACACGGCCTCGCAGCAAAGTGTGTCAGACGAGCAGTGACGGGCG TGCGGCCGGGC GGGGAGGCTGGCTCCCCCACACCTCCCACCTGCATTGCTCTCCCTCGTGCTCCC CAAATCACCACA ACCAACCAATACCGCGATCCATGAGGGACTCCTCCTGTGGAAAAGGAGAGCT GTTCCAGAACAC AGAACTGATCTCAGGTTTTTG 27344 PCSK1N HSX2_01710668 608 GTACTTGCTGGGACGGATTCTTGCGGGAAGCGCGGACTCCGAGGGGGTGGCA GCCCCGCGCCG CCTCCGCCGTGCCGCCGACCACGATGTGGGCTCTGAGCTGCCCCCTGAGGGCG TGCTGGGGGCG CTGCTGCGTGTGAAACGCCTAGAGACCCCGGCGCCCCAGGTGCCTGCACGCC GCCTCTTGCCACC CTGAGCACTGCCCGGATCCCGTGCACCCTGGGACCCAGAAGTGCCCCCGCCAT CCCGCCACCAG GACTGCTCCCCGCCAGCACGTCCAGAGCAACTTACCCCGGCCAGCCAGCCCTC TCACCCGAGGAT CCCTACCCCCTGGCCCCACAATAAACATGATCTGAAGCA 5125 PCSK5 HSX2_01110707 609 GGGCAGGAGCTGATGGGTGCATTAACTGCACAGAGGGCTACTTCATGGAGGA TGGGAGATGCG TGCAGAGCTGTAGTATCAGCTATTACTTTGACCACTCTTCAGAGAATGGATACA AATCCTGCAAAA A 8654 PDE5A HSX2_01350859 610 CGAGGCCGAGTCCTGTTCTTCTGAGGGACGGACCCCAGCTGGGGTGGAAAAG CAGTACCAGAG AGCCTCCGAGGCGCGCGGTGCCAACCATGGAGCGGGCCGGCCCCAGCTTCGG GCAGCAGCGAC AGCAGCAGCAGCCCCAGCAGCAGAAGCAGCAGCAGAGGGATCAGGACTCGG TCGAAGCATGGC TGGACGATCACTGGGACTTTACCTTCTCATACTTTGTTAGAAAAGCCACCAG 8654 PDE5A HSX2_01350876 611 GACTTTGCTGCTTATTTGGCATTTTGTGGTATTGTTCTTCATAATGCTCAGCTCT ATGAGACTTCAC TGCTGGAGAACAAGAGAAATCAG 8654 PDE5A HSX2_01350881 612 GTGCTGCTTGACCTTGCTAGTTTAATTTTTGAAGAACAACAATCATTAGAAGTA ATTTTGAAGAAA ATAGCTGCCACTATTATCTCTTTCATGCAAGTGCAGAAATGCACCATTTTCATA GTGGATGAAGAT TGCTCC 8654 PDE5A HSX2_01350921 613 AACAAGCTGACTGACCTGGAGATACTTGCATTGCTGATTGCTGCACTAAGCCA CGATTTGGATCA CCGTGGTGTGAATAACTCTTACATACAGCG 8654 PDE5A HSX2_01350941 614 GGCAATGCTGATGACAGCTTGTGATCTTTCTGCAATTACAAAACCCTGGCCTAT TCAACAACGG 8654 PDE5A HSX2_01350956 615 GCCCTGACCCACGTGTCAGAGGACTGTTTCCCTTTGCTAGATGGCT GCAGAAA GAACAGGCAGA AATGGCAGGCCCTTGCAGAACAGCAGGAGAAGATGCTGATTAATGGGGAAAG CGGCCAGGCCA AGCGGAACTGAGTGGCCTATTTCATGCAGAGTTGAAGTTTACAGAGATGGTGT GTTCTGCAATAT GCCTAGTTTCTTACACACTGTCTGTATAGTGTCTGTATTTGGTATATACTTTGCC ACTGCTGTATTTT TATTTTTGCACAACTTTTGAGAGTATAGCATGAATGTTTTTAGAGGACTATTAC ATATTTTTTGTAT ATTTGTTTTATGCTACTGAACTGAAAGGATCAACAACATCCACTGTTAGCACAT TGATAAAAGCAT TGTTTGTGATATTTCGTGTACTGCAAAGTGTATGCAGTATTCTTGCACTGAGGT TTTTTTGCTTGGG GATTATTTTAAATAATTGGTTTTTGTGTTTTCTGAATTACCATTTTTTCAAGAAT GTTTGGAATCTTT CCTTTTTCAAAAGTAGGTTAGGAGCAAATTATCATACATTCTGTGACATTTAAA GCCTTTATAGGA TAGTGAAAAATGCTGGCTGAGTGGATTTTAAGAGAAATAATTGTATTTGTTAA CAGTGTCTTTTTT TAAAAAGTTAAGGCACTCTGAAACAAATGGAAAGTCCTATGAAACTGTATTGT AAAGAAAACATT ATTTAATTGATATGCTGTTTTGTGAGAGAACAGGCAAGACAGAACTTTGTCACT TCAGTGCAGTAC ATTTTTCTGAAAGCTACCCATAAAATCACTTTCATCTCACCTACCTGATGCAAAG CAGGTGAAACC TTAGGAGATGATCCAGTCACTGACTTGATTGAGGGATAAGTGTGATTTAGAAA TGGAATGGCCTT GGATGTCTATCAGTGAAGAAAAATGTTCTGTTAGAAGATCTCTCTAAGAGTTTT TTTCCTTCTGAG CTTCCTTTTCAAAATAAAAGTGACAATTGTAGCATTGACTTGAAGTGAGACATG GTTATAGATAAG AGAGTACAAAATGACTCTTTTTCCTGTCAATTGAAATTTAAAGAAAAGTTTTAA TTATATAAATAGC AAAGGGCTATTGCCAATACTAGGGTCAAAAATGAATTTGAGGGAACAGTGGG TAAGAAACTTTA TGCCTGAATAACATTTAGCAGTATTGTGATTGAAAAATTGCCATATTTTGATGT ATAGGACAAGTC AACTGAGATCCAGAGAATCCTGGATGTGAATGCTAAACACTGGCCCTTAACTC ACATTCAATGTAT TTTCTTCCCATAACATTTAGTATAGTTAATATTTTCTTAGAATTTGAGCCCATTTA AGTGGATTAATA TTCTACATGTGTGCCCCTAAAGACACATTT 8654 PDE5A HSX2_01350958 616 CTTCTGCTCTACTACAGAGAGTGAAGAAGAAAGTATTAAAGCTCACTTTACCAT TCCATATACTTA CTAAAAGCCTGTGTAAACATGTCTTAATGAATGTTGTTGAAAGCAATGTAAAT AGTTGAAAATATA AATTTATATTACAGTTTAAGAAAACCTTATGAGGCATCACTAGCCACTGTTAAT ATCTATTTGTATT CTTATACCTTTTCAATATATTTGAACAAATATAGTTTCTGGCACTATTTTTATACT AGGAAAAGGAG TTACTATGTATATTATGCTTAGCTTTTAAGGCATTTTAAATAACCATGAATGTTG ATTTCATTACTTT CCTTTCCTCCATCACGAGAGTCATTTCAGATGACTCTTTCATGACAAAATCACTT TAAAGGAACACT TACCTCCGATTCCTGTATAAAGTCATGAGATGGTCAAGGTGGTTTTCCATTGTG CAAATTCTTCAC CTGTCAGTGGTTTCCTCATTTTGCCATGCTTTGTAAAAATAAAAAGAATGATCA AGTAGGTATGAA 5162 PDHB HSX2_02512202 617 AAGGTGGTCAGTCCCTGGTGTAGCTGCCCAGCAC 5164 PDK2 HSX2_02512156 618 GAGCGCTGCCCGCGCGGGGACCACAACCAAAGTCGCGGCCGCCGCAGCCATG CGCTGGGTGTG GGCGCTGCTGAAGAATGCGTCCCTGGCAGGGGCGCCCAAGTACATAGAGCAC TTCAGCAAGTTC TCCCCGTCCCCGCTGTCCATGAAGCAGTTTCTGGACTTCG 5166 PDK4 HSX2_01115087 619 GTATATACAGAGCCTGATGGATTTGGTGGAATTCCATGAGAAAAGCCCAGATG ACCAGAAAGCA TTATCAGA 5166 PDK4 HSX2_01115092 620 CTTTGTAGATACACTCATCAAAGTTCGAAATAGACACCATAATGTAGTCCCTAC AATGGCACAAG GAATCATAGAGTATAAAGATGCCTGTACAGTTGACCCAGTCACCAATCAAAAT CTTCAATATTTCT TGGATCGATTTTACATGAACCGTATTTCTACTCGGATGCTGATGAACCAGCACA 5166 PDK4 HSX2_01115102 621 ATGCCTTTGAGTGTTCAAGGATGCTCTGTGATCAGTATTATTTATCATCTCCAG AATTAAAGCTTAC ACAAGTGAATG AATGCAATGCGGGCAACAGTTGAACACCAGGAAAATCAGCCTTCCCTTACACC 5166 PDK4 HSX2_01115112 622 AATAGAGGTTAT TGTTGTCTTGGGAAAAGAAGACCTTACCATTAAG 5166 PDK4 HSX2_01115117 623 ATTTCAGACAGAGGAGGTGGTGTTCCCCTGAGAATTATTGACCGCCTCTTTAGT TATACATACTCC ACTGCACCAACGCCTGTGATGGATAATTCCCGGAATGCTCCTTTG 5166 PDK4 HSX2_01115122 624 GCTGGTTTTGGTTACGGCTTGCCAATTTCTCGTCTGTATGCAAAGTACTTTCAA GGAGATCTGAAT CTCTACTCTTTATCAGGATATGGAACAGATGCTATCATCTACTTAAAG 5166 PDK4 HSX2_01115127 625 TGAGCTCTGAGGCTGATGACTGGTGTATCCCAAGCAGGGAACCAAAGAACCT GGCAAAAGAAGT GGCCATGTGAAGAGGGACACTCAGGACACTTTACGGGATCAAAGTGGGTCTA CACCAGTGCTGC TTCCTGAATGTTTGTGTGTGAACCCTTGTTTCCTCCAAAACAAACGACAGCAAC GAAAACTCCTTA ATCAGAACACTGATCCAATGAGGAATGGAGCTTGTTTCTGTGACCCAGGAGAA CTTAGTGCAAGA CTACAGGAGTTAACAGATGGCCAGCTCCTTATTTTTTAATGTAGAATAACTCCT GAGTTTATATCA AATCCTGAAGAAATAAGCCTCAGTTTTCCATCTGTTTTTGATAAGAATAAGAAA GGGAGTGAGTG TGAAGATGGTGGTTAGCAGTTTCACTAAGACTGATATTTTAGGCCTCTTGTTCA CATCAAAAGATA TTGGTGTCAGAATACCAGCATTTTCCTGCCATGCAAAGGATTAAAACTTAGTTT ACACTATGTGGT TACAAATATATGTCAATGTACATTTTGAACATATTTATGTGCTATGGAAGGAAA TGCTGGTGACTA AAATAAGGTTTACTCTGAAAGAGGAGGAATTTTATTCAAAGCATTCAAACATTT TATTCAAGTGTT TCAAAATTCAAAGCATTGTATTCAAAGTTGCAGTGAAGGCATCAACTTATGTAA AAACTCAGAAG GAAGGCTCCTCTGATAAAAACACAGCTCCTTTATTATGCTGCTTTTCTTGTTCAC TTTACACACTAA GTAAACACTTATTGTCAGGTGCCTAGTCTTGAGTGAATTGTTAGATGTGCACTG AACTCGGGATG TTGGGGATTGGAGAGAGAGAATTGCCAAAGTAACAGCAAAAATATCTCTTACT TTGCTTTGTTTAT AAATAAATTAGTAGATTGGAAAAACTAGTGTTAGGGAAAGAAATCACATGTTC AGAGCCTAATTC AGTAGGAAGGGCTTTTCTCTACCCTGAAATGAAGGTAATCCAAAGGCATCCAT TTTCTAGGCTTAA AAGATATATTTTTGATATATTTAATTATATTCTCTACACTCCAGCATTAATATGT CTGTTTAAAAATT ACTAATTCTCAAATGGCTCAAGAACATTAGAATTTAAGTACCTTTTAGAGTAAT TATTTTAAGCAAA TAGCCTGGACGTAAGAGATTCTCATGCCAGCATGCTTTCATTTGTCAGTTGTTG TGACTGAGAGAT AATGAATGACACCTGAAATGCATATGGTATTTTTGGGAGAGTTAAGGTATAAT TTGAAGGTTGGC AGACCAGTTGCGCTGATTACTCTTAGAGAAGAAGAAATGGAAAAATGAAAGA AGGCAGGAAGG AAAGAAAGGATATAGGAAGAGAGGGAAGCAGAAGGCAGGCATTTTTCTATTT TCCCCACAAATT ATTTCAAAAAAAATCTGTATTTTCTGGGATATGTCATTGGCAAGAGGAAGAAC TGGTGTTTTGAAA GCAGTATGGATTCTTTAAATGCCTCTCACTCTTACAAGATAGTAGGCTTTGAGA TAATAAACTTAC CCGTGTCAATTAACATTTAAACTGGCATATAGAAAAAAAGGAGGATTTTTCTG CATTGTAAAATAA TCAGTATGGTTTATATGTTGAATTTGACATTTGTGTGTAATTTCATGGTGGCCT AGTGTTGTGGTG CTTCTGGTAATGGTAATAGAAGCTCAACTATTTTTTTGTGGATTTCAGTTTTTAT CATCAGAAGTCC TAGACAGTGACATTTCTTAATGGTGGGAGTCCAGCTCATGCATTTCTGATTATA CAAAACAGTTTG CAGTAGGTTATTTGTCATTTCAGTTTTTTACTGAAATTTGAGCTAAACATTTTTA CATGTAAATACTT GTATTTACCAAAGATTTAAATCAGTTGATTAATTAATTAACTCAAATACTGTGA ACTATCTCTAAAA CACTAGAAAAAAGAAATGTTAGTATCTCAATTACACCAACTGTGCAAATGAAC TTTGATAAAATAG AAATAATCTACATTGGCCTTTGTGAAATCTGGGGAAGAGCTTTAGGATTCTAG TAGATGGATACT GAATACTCAGGCCCACTTAAATTATTAATGTATACATTGTGTTTTTGTCTTTATG CTATGTACAGAG AAATGTGATAATTTTTTATAATAAATATTTTTTATGATGATAA 5255 PHKA1 HSX2_01122215 626 GAAATAATGGTATATCTAGCCATGTATATGCGAACCCAGCCTGGCCTCTTTGCT GAAATGTTTCGA CTTCGAATTGGTCTGATCATACAAGTTATGGCAACAGAACTGGCCCACTCCCTT CGATGCTCAG 7262 PHLDA2 HSX2_01281663 627 ACGCTGGACGAGTCGGACCGAGGCTAGGACGTGGCCGGCGCTCTCCAGCCCT GCAGCAGAAGA ACTTCCCGTGCGCGCGGATCCTCGCTCCGTTGCACGGGCGCCTTAAGTTATTG GACTATCTAATAT CTATGTATTTATTTCGCTGGTTCTTTGTAGTCACATATTTTATAGTCTTAATATCT TGTTTTTGCATC ACTGTGCCCATTGCAAATAAATCACTTGGCCAGTTTGCTTTTCTACCA 7262 PHLDA2 HSX2_02522700 628 GGCCATACGCTGGACGAGTCGGACCGAGGCTAGGACGTGGCCGGCGCTCTCC AGCCCTGCAGC AGAAGAACTTCCCGTGCGCGCGGATCCTCGCTCCGTTGCACGGGCGCCTTAAG TTATTGGACTAT CTAATATCTATGTATTTATTTCGCTGGTTCTTTGTAGTCACATATTTTATAGTCTT AATATCTTGTTTT TGCATCACTGTGCCCATTGCAAATAAATCACTTGGCCAGTTTGCTTTTCTACCA 55650 PIGV HSX2_02557993 629 GGAGGAGCTGAGGTTCGGTTCGGTCCCCGCCGGG 93035 PKHD1L1 HSX2_02151899 630 AGTCCCAGGAGCCGAGCTCCAGCACTAGAGCCAGCTGCGAGCGGAGGGCACC AACTCCGCAGA ACTGGCTTTTCAATGGGACACCTGTGGCTCCTGGGTATTTGGGGCCTCTGTGG GCTGCTCCTGTGTGCCGCGGATCCCAGCACAG 93035 PKHD1L1 HSX2_02151902 631 ATGGCTCTCAAATAATCCCCAAAGTCACAGAAATAATACCTAAATATGGCAGT ATAAATGGAGCA ACAAGGCTGACTATAAGAGGGGAAG 93035 PKHD1L1 HSX2_02151911 632 AGCAATGCCGGAAGATTCCTACACTGTTAGAGTCAGTGTGGACGGGGTTCCTG TTACGGAAAATA ACACCTGCAAAGGTCACATCAACAGCTGGGAATGTACCTTCAAC 93035 PKHD1L1 HSX2_02151919 633 GCAAAAAGTTTTAGAACCCCAACAATAAGAAGCATCACACCTTTATCTGGAACT CCAG 93035 PKHD1L1 HSX2_02151939 634 AGTTTACATTGGAGGAATGCCCTGTGAGCTTCTCATACCACAATCTGATAATTT 93035 PKHD1L1 HSX2_02151983 635 AGGTCACCATGATTTTCCCTTCACAAGGAAGCATTCGAGGTGGCACCACGCTG ACAATAAGTGGG CGTTTCTTTGATCAGACAGATTTCCCCGTCAGAGTTCTAGTTGGAG 93035 PKHD1L1 HSX2_02151994 636 GTGAACCTTGTGATATTTTGAATGTCACAGAAAATAGTATATGTTGCAAGACA CCCCCCAAACCTC ATATTCTCAAAACTGTATATCCAG 93035 PKHD1L1 HSX2_02152006 637 GAGGGAGAGGCCTGAAGCTTGAGGTGTGGAATAATAGCCGTCCAATACGTTT GGAAGAGATACT GGAATACAATGAAAAAACGCCTGGGTACATGGGTGCCAGTTGGGTAGATTCA GCTTCCTATATTT GGCTCATGGAACAAGACACATTTGTTGCACGCTTTAGTGGATTTTTGGTGGCTC CAGATTCTGATG TTTATAGATTCTACATCAAGGGTGATGACCGTTATGCTATTTATTTTAGCCAGA CTGGACTTCCAGAAGATAAG 93035 PKHD1L1 HSX2_02152050 638 GTTATAACATTGGAAAACTGGGAAACAACTAATGCAATTAATGAGGTTCAGAA GATCAAGGTAAC CAGCCCATGTGTGGAAGCTAATTCATGTTCACTTTACCAATATAGATTAATCTA TAATATGGAAAA AACTG 93035 PKHD1L1 HSX2_02152077 639 GAGACTTTGATCTGCTTGGTTATGAAGTAGTTGAAGGGAATAATGTCACACTG GATATTACAGAA CAAACCAAAGGAAAACCCAACTTGGAGACATTCACACTGAATTGGGATGGGA TCGCTTCTAAGCC ACTCACTCTATGGTCATCAGAAGCTGAA 93035 PKHD1L1 HSX2_02152101 640 GAACATATTAACAGAGGGCAGAAGACAGCTGAAACCGATGCTTACTGTGGTC GTTATTCCCTGAA AAACCCAGCTGTTCTTTTTGACTCAGCAGATGTTAAACCAAACAGACGACCATA TGGAGATATTTT ATTGTTTCCTTATAATCAG 93035 PKHD1L1 HSX2_02152113 641 TTATGTTTAGCATACAAAGGATTCCTGGCAAATTATATTGGTCTAAAATTTCAG TACCAAGACAAT AGCAAGATTACTAGAAGCACTGATACACAGTTTACATACAACTTTGCTTATGGA AACAA 93035 PKHD1L1 HSX2_02152180 642 AAAACTGAGGGTACAGTTGATATTTCAGTTACTACCAATGGATTTCAAGCCAC AGCAAGGGATGC TTTTAGTTATAATTGTTTACAGACACCAATTATAACTGATTTTAGTCCAAAAGTA CGAACAATACTA G 93035 PKHD1L1 HSX2_02152186 643 GAGAAGTTAATTTAACAATTAAGGGCTATAATTTTGGAAATGAACTCACACAA AACATGGCGGTG TATGTTGGAGGAAAAACCTGCCAGATTCTTCACTGGAACTTCACAGATATTAG ATGCCTTTTGCCC AAGTTGTCTCCTGGAAAACATGATATCTATGTAGAAGTCAGAAACTGGGGTTT TGCATCAACAAG 93035 PKHD1L1 HSX2_02152208 644 GTTCATTTTCTTACCAATTTACTTCTCCTGGAATCCATTATTATAGCAGCGGGTA TGTTGATGAGGC TCACTCCATTTTTCTCCAAGGAGTCATTAATGTTTTACCAGCTGAAACCAGACA CATTCCCTTGCAC CTGTTTGTGGGTCGCTCTGAAGCCACATATGCTTATG 93035 PKHD1L1 HSX2_02152220 645 GTTACAATTGGTAGCTACCCCTGTGTCGTAGAAGAAAGTAGTGAGGATTCAAT TACATGTCATATT GACCCTCAAAACTCAATGGATGTTGGTATCAGGGAAACTGTCACTTTGACTGT CTACAACCTGGG CACTGCTATCAATACGTTGTCCAATGAATTTGATAGGCGATTTGTACTTTTGCC AAACATTGACCT GGTGTTGCCAAATGCAGGATCAACTACAGGAATGACAAGCGTGACCATAAAA GGCTCTGGATTT GCCGTTTCTTCTGCAGGTGTAAAAGTCCTTATGGGTCATTTCCCATGTAAAGTT CTATCAGTGAAT TATACGGCCATTGAATGTGAAACATCCCCTGCTGCCCAACAGCTTGTGGATGT AGATCTTCTAATA CATGGAGTGCCTGCCCAGTGCCAGGGAAACTGCACCTTTTCATACTTAGAAAG CATCACTCCTTAC ATAACAGGAGTCTTCCCAAACTCTGTCATAGGATCTGTAAAAGTTCTTATTGAA GGAGAAGGTTT GGGGACTGTTTTGGAGGACATTGCTGTTTTCATTGGAAATCAACAGTTCAGAG CAATAGAGGTTA ATGAAAACAACATCACTGCTCTTGTGACTCCTCTCCCAGTTGGACATCATTCTG TTAGTGTTGTGG TGGGAAGTAAAGGCTTGGCTCTGGGAAACCTGACTGTCAGCAGCCCCCCAGT AGCATCTCTATCA CCAACTTCTGGAAGCATTGGTGGTGGAACTACACTGGTGATCACAGGAAATG GCTTCTATCCAGG CAACACTACAGTCACTATTGGGGATGAACCTTGTCAAATTATTTCCATCAACCC CAATGAAGTCTA CTGCCGCACTCCCGCTGGGACCACTGGAATGGTCGATGTTAAAATCTTTGTTA ATACAATTGCTTA TCCACCTTTGCTTTTTACATATGCCCTGGAGGATACTCCATTTCTCAGAGGAAT TATCCCAAGCAGAG 93035 PKHD1L1 HSX2_02152254 646 TGAAAATATGGAGGATGTTCATATCACCATAGCTGAAGCCAAATGTGATGTTG AGTATTCCAACA AGACACACATCATCTGCATGACAGATGCCCATACTCTATCAGGGTGGGCTCCA GTTTGTGTCCAC ATCAGAGGTGTCGGCATGGCCAAACTG 93035 PKHD1L1 HSX2_02152259 647 GATAATGCTGACTTTCTTTATGTTGATGCCTGGTCCTCCAATTTCTCATGGGGG GGAAAATCTCCC CCAGAAGAAGGATCTCTTGTTGTTATTACAAAAGGACAGACCATTCTGCTGGA TCAAAGCACCCC TATTTTGAAAATGTTGCTTATTCAGG 93035 PKHD1L1 HSX2_02152274 648 ATTGGAACAGAGACATCCCCATTCCAACACAAGGCTGTCATTACCTTGCATGGT CACCTGCGATCT CCTGAGCTCCCTGTCTATGGTGCCAAAACACTGGCTGTGCGGGAGGGAATCCT GGATCTGCACG 93035 PKHD1L1 HSX2_02152281 649 GTGTGCCTGTTCCTGTGACCTGGACTCGCTTGGCTCATACTGCAAAGGCAGGG GAAAGAATTTTA ATTTTACAAGAAGCAGTAACATGGAAACCAGGAGATAACATTGTAATTGCAAG CACAGGACACA G 93035 PKHD1L1 HSX2_02152287 650 ACACAGTCAAGGAGAGAATGAAAAAATGACCATTGCATCTGTGTCTGCTGATG GCATAAACATAA CACTAAGTAACCCACTAAATTACACACACTTAGGAATTACGGTCACACTCCCTG ATGGAACTCTGT TTGAAGCAAGAGCAGAAGTTGGAATTCTTACAAGAAATATTTTAATAAGAGGA TCTGATAATGTT GAGTGGAATAACAAAATTCCTGCATGTCCTGATGGATTTGACACAG 93035 PKHD1L1 HSX2_02152293 651 GAGAATTTGCTACACAGACCTGTCTCCAAGGAAAGTTTGGAGAAGAAATAGG AAGTGACCAATTT GGAGGCTGCGTTATGTTTCATGCTCCTGTACCTGGTGCTAACATGGTAACTGG GAGAATAGAATA TGTAGAG 93035 PKHD1L1 HSX2_02152298 652 GTATTCCATGCTGGCCAGGCTTTCCGGTTGGGGCGATATCCAATACATTGGCA CCTGCTTGGAGA CTTACAGTTTAAATCTTATGTAAGAGGCTGTGCAATTCACCAGGCCTATAACAG AGCTGTTACTAT TCATAACACACACCATCTTCTGGTTGAGAGGAATATTATATATGATATTAAGGG AGGAGCATTTTT TATAGAAGATGGTATTGAACATGGCAATATCCTCCAGTATAACTTGGCAGTATT TGTACAGCAAA GTACCAGTCTTCTGAATGATGATGTGACCCCGGCTGCATTTTGGGTCACCAACC CGAACAATACC ATACGACACAATGCTGTTGCTGGTGGCACTCACTTTGGCTTTTGGTACCGGAT GAACAACCACCCT GATGGGCCATCCTATGACAGAAACATTTGTCAAAAAAGAGTTCCCCTTGGCGA ATTTTTTAACAAT ACTGTCCATTCTCAAGGTTGGTTTGGAATGTGGATCTTTGAGGAATATTTCCCC ATGCAAACGGG ATCTTGTACATCTACAGTGCCTGCACCTGCAATATTTAACTCACTTACTACTTGG AATTGTCAAAAA GGAGCTGAATGGGTCAATGGAGGTGCCCTTCAGTTCCATAACTTTGTGATGGT GAATAACTATGA GGCTGGAATTGAGACTAAGAGGATCCTGGCTCCTTATGTTGGAGGGTGGGGT GAAACCAATGGA GCGGTGATTAAAAATGCCAAAATAGTCGGCCATCTTGATGAACTGGGAATGG GGTCTGCATTTTG CACAGCAAAAGGCCTGGTTCTCCCATTTAGTGAAGGCTTGACTGTCTCTTCTGT GCACTTTATGAA CTTTGACCGTCCCAACTGTGTAGCTTTGGGAGTGACATCCATCTCTGGAGTTTG TAATGACAGATG TGGGGGTTGGAGTGCAAAGTTTGTTGACGTCCAGTATTCTCACACACCGAACA AGGCTGGCTTTC GCTGGGAACATGAAATGGTAATGATTGATGTTGATGGCTCACTTACAG 93035 PKHD1L1 HSX2_02152308 653 GGCACAAAGGACATACCGTCATTCCACACAGCTCATTGCTAGACCCTTCTCATT GTACTCAGGAA GCTGAGTGGAGCATTGGGTTCCCTGGATCAGTCTGTGATGCTTCAGTCAGCTT TCACCGTTTAGC GTTCAACCAGCCTTCTCCAGTATCTCTGCTTGAAAAGGATGTGGTTCTTTCAGA CTCTTTTG 93035 PKHD1L1 HSX2_02152318 654 GCACAAGCATTATTCCATTTCAGAAGAAACGACTGACTCATATGTCTGGATGG ATGGCTCTGATTC CAAATGCAAATCACATTAACTGGTATTTTAAAGGTGTGGATCACATAACCAAC ATTTCATATACAT CGACATTCTATGGATTCAAG 93035 PKHD1L1 HSX2_02152328 655 GAAGAAGACTATGTAATTATATCACATAACTTCACTCAAAATCCTGACATGTTT AATATTATTGATA TGAGGAATGGTTCCTCAAATCCATTGAATTGGAATACTAGCAAGAATGGGGAC TGGCACCTTGAA GCAAACACTAGTACTCTATATTACTTGG 93035 PKHD1L1 HSX2_02152339 656 TGTCAGGAAGAAATGACCTTCATCAGAGTCAGCTCATTTCTGGGAACCTGGAT CCTGATGTGAAA GACGTTGTTATTAATTTCCAAGCTTACTGTTGTATTCTCCAGGATTGCTTTCCTG TACATCCGCCAT CAAGAAAACCAATTCCCAAGAAGCGACCAGCCACATATAA 93035 PKHD1L1 HSX2_02152370 657 GGAGGTAGATTAATCGGTGGCTGGGAAGATAACCCTTTTAAAGGAGACTTAA AGATTGTTCTTAG AGGAAATCATACTACACAAGACTGGGCTCTTCCAGAAGGACCAAATCAAGGG GCAAAGGTCTTA G 93035 PKHD1L1 HSX2_02152379 658 GGGTGTTTGGTGAGCTGGATCTTCATGGAATTCCACATTCAATATATAAAACTA AGCTCTCAGAAA CTGCATTTGCAGGTTCCAAAGTCCTGTCTCTGATGGATGCTGTGGATTGGCAG 93035 PKHD1L1 HSX2_02152389 659 GAGGGAGAAGAGATTGTGATAACAACCACAAGCTACGATTTCCACCAGACAG AAACAAGAAGTA TCGTTAAAATCCTGCATGATCATAAAATTCTCATTCTTAATGATAGCCTTTCCTA TACTCACTTTG 93035 PKHD1L1 HSX2_02152399 660 CTGAAAAATACCATGTCCCTGGAACTGGTGAGAGCTACACGTTAGCAGCTGAT GTTGGGATACTG AGTAGGAACATCAAAATAGTTGGTGAAGATTACCCCGGTTGGTCTGAGGACTC TTTTGGAGCACG CGTACTGGTTGGCTCATTCACTGAAAATATGATGACATTTAAAG 93035 PKHD1L1 HSX2_02152410 661 GAAATGCAAGAATAAGTAATGTGGAATTTTATCACAGTGGTCAAGAAGGCTTC AGGGATAGCAC AGATCCAAGATATGCTGTAACGTTTCTTAACCTAGGACAG 93035 PKHD1L1 HSX2_02152474 662 AGCTCATTAATTGTTGGAAGTAGCCCTGGGTTTAATTGCTCTGATGTCCTAACT AATGATGATCCT AATATTGAACTCACTGCTGCTCATCGGAGTCCTAGATCTCCATCAG 93035 PKHD1L1 HSX2_02152481 663 GTGGGAGAAGTGGGATTTGTTGGCCTACCTTTGCTTCAGCTCATAACATGGCA CCCCGAAAGCCC CATGCAGGAATCATGAGTTACAATGCCATCAGTGGCCTTTTGGACATCTCAG 93035 PKHD1L1 HSX2_02152497 664 GAATTATTAGAGATTCAACCTGTAAGTACCTTCCAGAGTGGCAGAGCTATCAG TGCTTTGGGATG GAATATGCAATGATGGTTATTGAAAGTCTGGATCCTGACACAGAAACTCGAAG ACTTTCCCCAGT GGCTATAATGGGCAACGGTTATGTTGATCTTATTAATG 93035 PKHD1L1 HSX2_02152524 665 GTGACTGCCCAGCCAGTTGAAAGGTCTGCATTTCCTGTTCATCACGTGGCCTTC GTGTCCTCACTC TTAGTGATCACTCAGCCGGTGGCAGCACAGCCAGGACAGCCATTTCCTCAGCA GCCTTCGGTAAA GGCAACAGATTCTGAC 93035 PKHD1L1 HSX2_02152529 666 GGTAACTGTGTATCAGTTGGAATTACTGCACTAACTTTGAGGGCCATACTCAA GGACTCCAATAAT AACCAAGTCAATGGCCTTAGTGGAAATACAACAATTCCGTTTAGCAGCTGTTG GGCCAACTACAC AGACCTTACTCCCCTTAGAACAG 93035 PKHD1L1 HSX2_02152541 667 GAAGCTACTAAAGTGCTGTTCCGAAGAATAGGCTGAAACAAAAATATAAGAAT TATTAGCTACTT TGTTGGGCAATAGGCAAAAGTCTATAGCATTTTCATGAAAATATACTAAAAATA TTTTTATGATAT ATAAAATGTACTAATTAGCTTTAAACACTAAAATCAGATTTCTTCAAAATATAA ATTTGTTTTGATT CTTTATATTTATATGTTTTTATTTCATTTCAATAAACTTCCAGAAATTTGTCATTT GGAAGTAGATAT GACACCTCTAAGTTATTGTACCAACAAATCATAGAATCCTTTAAATAATGGAAA GAGCTTGTCTAG TTCCGACTTAAGCTCTTTACATCAGATTGGAAGCATTTTAAGTATTCTTTTTAAT ACTTGAGGGGG GGGGTTCTTATTTTCTCTATCCATTTACAAGGTTTTGATTTCCAATAATCTAAGC CATTCTAGTTTCT AAGGATTTTGGAGAGACGAGATTGTCTTCACACAATCTGAGATGACAATCTCA TCTCAGATTTTTC ACACTGAGTTCCTGTCTTTCAGATTCACAGTAATCCCAGGAATTCTAGACTGTC CTGTATTTCTGG ATCTGCCCAACTCTGGCCAATATTGGGAAAAGTTTTCTTGTCCTTGGAATGAAC TTTTGGAACAAG TCCAAACTCCTTCTCTGCCTACCCCTCCTTCCCACTCAAAACTGCCACTACTAAG AGCAGGACTCCC CTCAACCCCGGGCATGAGTTGAGGGTTGAGGGGTTCCCTTAACTGGTGGATGC TTATTCACTGTT TACTGGATGAATGAAGTATAAAGTGTGGGAAGTCAACAACAGAACAGAACTT ATTTTCAAGAAGA TAAATTAGAGAATGCAAAAAAGCTACAGACTAAGGTAGCTAAGTTAACCGAAC TCTCTAACAGTA TTGAAAATAGCAATTCTTTACTCAGAAAATTCTAAAGGGAATACTTAATTTGAC AGAACTCCTAAT AAAGACATTGTAGCCAGATCCAGAGCCTTCCAGCAAGTGACACTCAGCAAACA TTTGGGACAGCT GAGAGAATTCAACAAAGCCCATACCGTTGTCTCTTGTATAACATCTCCTAGTAC ATTCACCTCAGA TCATTGTTAGTCTTACTTAGCAGAAAATGTATAAACACTTACCAGGTAGTAAA ATCAAATATCTTG GTA 5315 PKM HSX2_01127816 668 CGGCGGCCCGCAGCGGGGCTCCTTGCACAGCAGC 22925 PLA2R1 HSX2_01578093 669 AGGTAAATTTTGAGCCATTTGTTGAAGATCACTGTGGAACATTTAGTTCATTTA TGCCAAGTGCCT GGAGGAGTCGGGATTGTGAGTCCACCTTGCCATATATATGTAAAAAATATCTA AACCACATTGAT CATGAAATAGTTG 22925 PLA2R1 HSX2_01578104 670 AAAAAGATGCGTGGAAATATTATGCTACCCACTGTGAGCCTGGCTGGAATCCC TACAATCGTAAT TGCTACAAACTTCAGAAAGAAGAAAAGACCTGGCATGAGGCTCTGCGTTCTTG TCAGGCTGATAA CAGTGCATTAATAGACATAACCTCATTAGCAGAGGTGGAGTTTCTTGTAACCCT CCTTGGAGATG 22925 PLA2R1 HSX2_01578263 671 ATATTCACACTGCAGAGGCGCTGCCAGAAAAAG 22925 PLA2R1 HSX2_01578389 672 AAAACTCTGAAATCAATGCGAATAATAGTTTTTGCATTAATGTATCTCTACTAA AATTTGGGGGAA TTTTAAAACTAATCTGGTATCTATTCAGACATTTACCTGCACTCGTACCATTAAG AAAGACAGAAA GAAGCAAAAAAAAATTAATCTTGTATATGAGAGGAAAAGGAAAGGGCTTCTG AGAGGATTCTTA GTTGTTTCTTTTGAATTCACTTTTAATAGCAGGATTTGGAAAATACTAATTTCTG TGCTTAAGGGTC ACAGGTTCTGGGCTCTCAACTGATATTTAAGGTGACATTCATTTTTATTAGGTCT AACATCTCAAG CTAAAGGAGAAAGAAAAATACCTTCTTTTAAATGGCAAAGACCTTCATTAGCA GCACACTTTTATA AACAACCATATAGTTAAAATGTGGCCTTAAACTTTCAATTACTAAATGATGATT AAGTTGGATATTT TAAAATGTCTTATACATAAGCTTAAAGTAATATATTGAAACTTTAACAGTTGTA CTGTTAAAACTCA TGGACTTTCTGAAAAACTAAATATATAAAATAATATGTAACACTCTTAATAACT GGAAGATATAAA ATGTAACTTGGATTTAAAGGAGAAGAGCTAAAGATCTGAATTATAGTCTCATT AGAACCAGACAG ATGTTGTTGAGAAGTACTAAATAAATTAGTAATCTAGATATCTTTATTATGTAA ATGAGTTTAGGT GTTCTATTTAATAAACTATTTTCTGG 57664 PLEKHA4 HSX2_01939952 673 AATCCGCCCAAAAGCGGCAGCCAATCGGAGCGCGAGGACGTGGTCTGGAGGT ACCGCCGGAGA TCTGGGACCACTCAGGGCATCAGGGGGCGTGGTCTGGTCCCCATTGCGGGCC CGGGAGGGGAA TGGTTTCTATGGCCAAAGTTTGGTTTTCTCAACACTGTCTAAATTTGGATTAAAA CTTTGAACTTTT A 57664 PLEKHA4 HSX2_02562176 674 GTGGAAATTTGGACTCCCAGGGAGACCCTCTTCCCGGTGTGCCGCTGCCTCCTT CGGACCCCACG CGCCAGGAGACCCCTCCCCCCAGATCTCCCCCGGTGGCTAATTCGGGTTCCAC GGGGTTCTCTCG CCGAGGGAGTGGGCGTGGAGGAGGTCCCACCCCCTGGGGGCCCGCGTGGGA TGCCGGGATCG CCCCTCCGGTCCTGCCACAAGACGAGGGGGCATGGCCTCTGCGAGTCACTCTG CTACAATCCAGC TTCTAATCCGCCCAAAAGCGGCAGCCAATCGGAGCGCGAGGACGTGGTCTGG AGGTACCGCCGG AGATCTGGGACCACTCAGGGCATCAGGGGGCGTGGTCTGGTCCCCATTGCGG GCCCGGGAGGG GAATGGTTTCTATGGCCAAAGTTTGGTTTTCTCAACACTGTCTAAATTTGGATT AAAACTTTGAACT TTTA 5362 PLXNA2 HSX2_01133693 675 TGGCCACACACCCCTGACCATCACAGGCTTCAACCTGGATGTCATTCAGGAGCC AAGGATCCGAG TCAAATTCAATGGCAAAGAATCTGTCAAT 55558 PLXNA3 HSX2_01855156 676 TGGAAGCACTGCCATCACTGTGAGTGGGACCCACCTGCTGACGGTCCAGGAG CCCCGGGTCCGT GCCAAGTACCGCGGCATTGAGACCACCAAT 5365 PLXNB3 HSX2_02513200 677 TGATCCTGTACGACTGCGCCATGGGCCACCCGGACTGCAGCCACTGCCAAGCG GCCAACAGGAG CCTGGGCTGCCTGTGGTGTGCTGACGGCCAGCCTGCCTGTCGCTATGGGCCCT TGTGCCCGCCG GGGGCTGTGGAGCTGCTGTGTCCTGCGCCCAGCATTGATGCA 5371 PML HSX2_01134444 678 CATCCATCCCACCTGCCACTACCTTGGGTGTCCTTACAGCTCTGCCCTGACCCCA GCCCCT 10585 POMTT HSX2_01513339 679 AAGTACATGGGTGTGTTCACGTACGTGCTCGTGCTGGGTGTTGCAGCTGTCCA TGCCTGGCACCT GCTTGGAGACCAGACTTTGTCCAAT 10585 POMTT HSX2_02537077 680 CATCAAGTACATGGGTGTGTTCACGTACGTGCTCGTGCTGGGTGTTGCAGCTG TCCATGCCTGGC ACCTGCTTGGAGACCAGACTTTGTCCAAT 64091 POPDC2 HSX2_02563563 681 CGGGCCAGGTTGTCCAGGTCACTCTGACTGCTGA 25833 POU2F3 HSX2_01660779 682 TAACGTCATCCTGTTCCCCTGGGAACAACAGCAGGCCTTCATCTCCTGGCTCAG GACTCCACGCC AGCAGCCCCACTGCATCTCAAAATAACTCCAAAGCAGCAGTGAACTCCGCCTC CAGTTTTAACTCT TCAGG 25833 POU2F3 HSX2_01660796 683 ATCTTGGTACCGATGGAATCATTCCACCTACCTCCACTGAGACCAAAAAGTTTC TCCTACTCCAGC TGGCCCTGTATTCCCCTGG 5504 PPP1R2 HSX2_01142158 684 GGAAGAATCAAATCAAGGATCTACTCCAAGTGAC 129285 PPP1R21 HSX2_02204481 685 TGCACAGAGCCGCAGGGCTGAGACCACGTCCATG 5567 PRKACB HSX2_01146811 686 GGCTACAATAAGGCAGTGGATTGGTGGGCATTAGGAGTGCTAATCTATGAAA TGGCAGCTGGCT ATCCCCCATTCTTTGCAGACCAACCAATTCAGATTTATGAAAAGATTGTTTCTG GAAAG 222171 PRR15 HSX2_02304267 687 CACAGGCCGCTGCCTCAGCATCCACCCCGCAGCCCACGTGTGGCAAGCCGGG GAAGGGGTGGA GTGAACGGCCGGAGACCACGTGGAGAAAGGGGCCGCTTTGGCCCTTCCATCT GGGTGCCGGGA GCCCCTAGGCCCTCCGGCCATGGCCGACAGCGGCGATGCTGGCAGCTCCGGC CCCTGGTGGAAA TCGCTCACCAACAGCAGAAAGAAAAGCAAGGAAGCCGCAGTGGGGGTGCCG CCTCCCGCCCAG CCCGCTCCCGGGGAGCCCACGCCACCTGCGCCGCCCAGCCCGGACTGGACCA GCAGCTCCCGGG AGAACCAGCACCCCAATCTCCTCGGGGGCGCCGGCGAGCCCCCCAAACCAGA CAAGTTATACGG GGACAAATCCGGCAGCAGCCGCCGCAATTTGAAGATCTCGCGCTCCGGCCGCT TTAAGGAGAAG AGGAAAGTGCGCGCCACGCTGCTCCCGGAGGCGGGCAGGTCCCCGGAGGAG GCAGGCTTTCCT GGTGACCCCCACGAGGACAAGCAGTAGCCCCAATAGCCTGCGCGCTCCAGGA CTGCCTACCCAG CACTACCCCAAACCCCCAGTTCCAAACCCGAGACTTCAGGCCCGCCCCCTTACG CGTTGTCTCATT CCACCAAATTCAGAATATTTACACAATGCCTTCATGATTTTATTTTTCTGGAAAT TGAAGTGTCAAT TGGGTTCTCAATATTTCATGACTCCAAGGATGCATTAAATATTTATTTGTGGTA AGAGAAGATACC TGCCGCGGAGGAGGGTGGCATAATTATTTTTTTTTCAAAAAGCTATTCTGGGG CCCTGGCCCCCT GGCTCCTGTCACAGCTCAGCTTGAACTCTGTAGCCTCTCAAATGAAGAAGGTG GCTGTTATTTAG GACTCTGTGGAAAGCAAATCACAGTGCTGTTTTTAATGCCTGAGAAATGCACT TTAGGGGTAGAC TTATACCTTAAGTGAAGGAGTGGGGGAGGAAGAAGCATTCTTAAGTAGAAGC ATTTTAAAATAA GGCAGGATTGCTTTTAATGTTAAACTACAAAACTGTACAGCCTATTTTAGTGTG GACTATTAAAAC CCTTGCACTGTAAGG 11098 PRSS23 HSX2_01548939 688 CTTCATGTGGACCCCAGTGTCATAAGGGAACTCCA 23362 PSD3 HSX2_01629459 689 GATCAGCGAACAAGAGGAGCACGTTAAGGGGGAAGATGAAGACATCCTTGG GCCTGGATATAC GGAGGACTCCACCGACGTGTACAGCTCCCAGTTTGAAACCATTTTGGACAACA CTTCTTTATACTA CAGTGCAGAGTCCCTGGAGACATTATACTCAGAGCCTGATAGCTATTTTAGCTT TGAAATGCCCCT CACTCCAATGATACAACAGCGCATTAAAGAAGGTGGTCAGTTCTTGGAGAGGA CATCAGGGGGA GGACATCAGGATATCCTG 23362 PSD3 HSX2_01629461 690 AGTGTGTCTGCAGATGGTGGCATCGTGATGGGCTATTCTAGTGGCGTCACCAA TGGGCTGAATG ATGCCAGCGACTCCATCTACACGAAAGGCACCCCGGAGATTGCTTTCTGGGGA AG 23362 PSD3 HSX2_01629472 691 GAGAGAGACAGGGAAAGGATCAGCGAACAAGAGG 23362 PSD3 HSX2_01629478 692 CAATGCTGGGGTGAAAACAACACGGCTAGAAGCTCATTCTGAAATGGGGAGC ACTGAAATTTTG GAAAAGGAGACCCCAGAAAATCTCAGTAATGGTACCAGCAGCAATGTGGAAG CAGCCAAAAGGT TGGCCAAACGCCTTTATCAGCTGGACAGATTCAAAAGATCAGATGTTGCAAAA CACCTTGGCAAGAA 23362 PSD3 HSX2_01629528 693 ATGGAGTCCATTGCCTTACCTGTGCAATAATGCTTCTTAATACCGATCTACATG GCCAC 23362 PSD3 HSX2_01629587 694 AGATGATGAAGAGAAAAAAAAGTCTCCCTCAGAAAGTACTGAGGAGAAAGCT AACGGAACACAT CCAAAGACCATCAGTCGTATTGGAAGTACTACTAACCCATTTTTGGACATTCCT CATGATCCAAAT GCTGCTGTGTACAAAAGTGGATTCTTGGCTCGGAAAATTCATGCAGATATGGA TGGAAAGAAGA 23362 PSD3 HSX2_01629635 695 GAGGAGCAACTGAAGTCACATGAAAGTAAGCTGAAGCAGATCACCACCGAGC TGGCCGAGCACC GCTCATATCCCCCCGACAAGAAGGTCAAAGCCAAGGACGTCGATGAGTACAA ACTGAAAGACCA CTATCTGGAGTTTGAG 23362 PSD3 HSX2_01629644 696 AAAACCCGCTATGAAATGTATGTCAGCATTCTCAAGGAAGGAGGCAAAGAGC TACTGAGTAACG ATGAAAGCGAGGCTGCAGGACTGAAGAAGTCGCACTCGAGTCCTTCGCTGAA CCCGGATACTTC TCCAATCACTGCCAAAGTCAAGCGTAACGTGTCAGAGAGGAAGGATCACCGA CCTGAAACACCA AGCATTAAGCAAAAAGTTACTTAGAGTCCATCTGCGGCCAGGAAGTGCTGGTC ATGGAG 23362 PSD3 HSX2_01629645 697 CAAAACGGTGCATTAGTAATTTTTTCTATTGTATATTTTTGTTAGTTTCTGTACA GATTGTCTTTGCT CTTGATTTCTTTTGCTTTGATGATTTTTGCAACTTGATAGCTAATGCACCTTTTCT GTGAGGAGGAG GGGATCGTGATTTCAGAATGAATTATGTATCCCTTCTCTTTTGGTTTTCTCTTGT TTGCAGTCTGCT CAGTTGTTTTATGTATTCTCATATCAACTGTTAAACTTTTTTTTAAGGTTAAAGA ATTTAATCCATTG TGAAACACTTAACTGGACAAACTGTAGTTTTAGTAAATTCTAGCTGGAGTTAAT ATACGCCTTTAT ATGTGAAATCTTGCCCAGTCACAGAGGTAGAATTGAGCACTCACAGATGCTCC AGTAAGAATCAC AGTGCTGGGAATCTAGTTGCTCCAATATGAGGCAGCTTCATGTGCAGCTTAGC ACTTGTTGTTGA GATCGGACCCTGCTGGAAGCAGGGAAAAGAAGCGTGAAGATCGTAGGATTG AGAACTTAGGGA AGCACATTAGCTTGCTTGAAGTGCTGATTCCATTTCAGCCAAGCAAGGGAAAG AGGAAGTGGAG TCATTTTGCCTTTGAAGGCTGAGGAAAGATTGATACCCAGTTAATTTTGTTTGC TAAAGGATGGG GGCAATAATCGGCCCTTGAGGAGCTGCAGCAGTAGGCATGTGCTCAGTCTGC AGGAATTGTTAC CTCACTCCCACAGGGTCTAGACTAGAAATCCATCATCTCTATCGTTGATATCCTT CCATCCAGGAA TAGATTTTTCTTACTCTACATATGTGTGTGTGCGTGCGTGTGTGTGCGTGTGTG GGCATGGGGTT GTGTCCTGGTTGTGATATTGAGGTCTTCCTTCCTAACAAATTAATACTAAAATG AAACAGCTTTTCT TGTGTCCTTAAGACAAAATAAGGAAGGAAAACGTAGCTGCAGTTGTCCACGAT GGATATTGGTTC TTTAAAATATATCTGAAAGTAGTAGTCAGAATGAATTATGGTTGGAAAACTGA GGAATCTTCTGG TTGCAGGTGCAAAGTGACTTTGTTTATTCTTGTCTCAGTCTCCTTGATAGCCACT TCACTCTGCTAC TACTCAACTTTCTCCTAAAAATACTTCATCTATTTTCAGTCCTTTCTTTCTGTCTA CTCAAAATGGTT CTATTAACTTTGCAGTCATGAGCTTGTTCCAGTTACAGTCCCTTTGAAGTTCAG GGTGATAAACAG AATATTCTTCTGTAGAGGAAGAGAAAGGAGTGAAAGTTTAGCCCACTGAGAC CTAGAGCTTTGTG ATTTCCTAACCTTGAAACTCTGTAATCCCTAAAGTTAAAATCTCCGCAAGTGGC ACAACTTCAGAA CTAATAGTATCACTTTGATTTTTCTTTTTCCTCCCTTAGAAAGTTTCTCTAGTTCT ATAGTTTATTTGT TGAAGGTACTATGACCAAAGAATCAGCTGCTCTACAGGAATAGCATGGTTCCA GTGAATTAGAGA AAACCTGCTGTAAAGCCATGGTAGTGTCTAAGTGGTATGTTATTATGATGTACT AGCATTTATTTA CAGAATTATTTATTAACGTTTACTTCCTTCCCCTCTGTAAATGTCCATGACTATT GCCCAGAGAAGG CTTACCCCTCTCTAGGGTTGCAGTTGCTTTCTTTGTAATAAGTATTTTGCCACAC CTGTAAAAAAAA AAACCTCACTTTTAACTCTCTGCCTTGTTTGGGTAAAGGCAGTAACTAAGTTTA TGTTTCAGAACT GCAAAACAAACAGGATAGTTACCAATATGGCCCATGTATCAGATTGATTTTTGT AGCCTCTCACTG AATCCAACATATCCACAAGCAAGTTATCTGTCTTTCTACCTGATAATCTAAATTA TCAGGATATTTG TTTTCTGCCTAAATGTTTATACTAAGCCGAGGGGAGAGAGGTACCTAGACCAT GTCATCTACAAG CTTCAGTAACTAAAGAAAAAGGAACTTCCCTGAGTGGCTTGAATGTGTTTGCC CACAGTCTATATC TATGTATATAGAATGTCTGTATGTATTTTACTTATTTAATATACATTGAATGGTA CCTTGCTACAGT ATTTCTGACATTTAGAGTAGTGTTGAAATACTCGGCTAGCATCAGCACCACTAT AGCACTGTCCGT GTCATATGAGTCACTAATATTAACTCCAGGGACTTCTGGATAGGCTAATAGATC ATTGGATACGA 5725 PTBP1 HSX2_02515245 698 GCCTTTCCGTTCCGAACGTCCACGGCGCCCTGGCCCCCCTGGCCATCCCCTCGG CGGCGGCGGCA GCTGCGGCGGCAGGTCGGATCGCCATCCCGGGCCTGGCGGGGGCAGGAAAT TCTGTATTGCTGGTCAGCAACCTCAACCCAGAG 5747 PTK2 HSX2_01163391 699 TTGCCATCAATACCAAAGTTGGCCAACAGCGAAA 5786 PTPRA HSX2_01166131 700 ATGACCACTCTAGAGTCCACCTGACACCGGTTGAAGGGGTTCCAGATTCTGAT TACATCAATGCTT CATTCATCAAC 5793 PTPRG HSX2_01167541 701 ACAGCGACAAAGACTTGAAAGCCACCATTAGCCA 25797 QPCT HSX2_01658589 702 ACTGTTTCAGACTCCAAGCCAGATTTGTCACTCCAGCTGATCTTCTTTGATGGT GAAGAGGCTTTT CTTCACTGGTCTCCTCAAGATTCTCTCTATGGGTCTCGACACTTAGCTGCAAAG ATGGCATCGACC CCGCACCCACCTGGAGCGAGAGGCACCAGCCAACTGCATGGCATG 5873 RAB27A HSX2_01173704 703 GAGGAAGCCATAGCACTCGCAGAGAAATATGG 5873 RAB27A HSX2_01173714 704 AATTAATTTGTTGCAGCTTTGTAAATATTTCTTTAAGATTCAGCCTGAGAGTTA GGAGAAATATTTC AGAGCCAAAAGTGCCTTATACAACCTTAGCCTATTATAGTAAATCATTCAAGGA TTCAGAATTTTG CAGTCACAGAAGAGTGTATTTATTATGTAGAATGAATGAGGGTACTGTCACCT GCCTTAATGTAG GTAGGCCCAGAGTCTTACATTTAAGATCTTACATGCAGTTATAAAACCGCCACA GTCTTCAATCCA GATTTGAAGACTCATGCCATAGGTGACATTCTAAAATACCATTAAAGCCACTT AAATGTTAAATAA GAATATACATGCACATCAGCTCAATGTCTTTGAGTATTAATTTTATGTAAGCAT TCTATTTAACATG AATATAGGACAAATCATGGCTATATCTATAGACCTTGGATAAACTGGATTGAC CAATTATACACTC ACGGTGACTTTTTTATTGGTGGGAAGGGGATTGGGGTGGGGCAGGCTGGCTT AATGTAATATGA GCAACCAAAGTGGGACTTCTGTCTCCCCGCTATATTCCCATTGCTCTGAATGGT TGATTGAAGGGT CAGGGAACTAGATTTTATGGCTTTAGTTCACTGTGATTGTACATTTATACTTGG CCTATGTGCTGG CCGCACCTGAACATAGCTGG 7033 TFF3 HSX2_01262852 705 CTGCAAACCAGTGTGCCGTGCCAGCCAAGGACAGGGTGGACTGCGGCTACCC CCATGTCACCCC CAAGGAGTGCAACAACCGGGGCTGCTGCTTTGACTCCAGGATCCCTGGAGTG CCTTGGTGTTTCA AGCCCCTGCAGGAAGCAG 5887 RAD23B HSX2_01174939 706 GGAATCCCTGGAGATAGAGAAAGTCAGGCTGTGGTTGACCCCCCTCAAGCAG CTAGTACTGGGG CTCCTCAGTCTTCAGCAGTGGCTGCAGCTGCAGCAACTACGACAGCAACAACT ACAACAACAAGT TCTGGAG 5887 RAD23B HSX2_02516158 707 TGACGGGTCAGTCTTACGAGAATATGGTAACTGAGATCATGTCAATGGGCTAT GAACGAGAGCA AGTAATTGCAGCCCTGAGAGCCAGTTTCAACAACCCTGACAGAGCAGTGGAGT ATCTTTTAATG 26953 RANBP6 HSX2_01694312 708 GTGAGACAAATGGCTGCCGCACTGCTACGACGGCTTTTGTCCTCTGGGTTTGA GGAGGTTTATCC AAATCTGCCTGCTGATGTTCAGAGAGATGTCAAGATTGAACTGATTCTGGCTG TTAAGTTAGAAA CACATGCTAGCATGAGGAAAAAACTTTGTGATATTTTTGCAGTGCTGGCCAGG AATTTGATAGAT GAGGATGGCACTAACCACTGGCCGGAAGGTCTGAAGTTTCTTATTGATTCAAT CTACTCCAAAAA TGTGGTTCTATGGGAAGTTGCACTTCACGTTTTCTGGCACTTTCCTGGGATTTTT GGGACCCAAGA GCGGCATGATTTGGATATCATCAAACGGTTGTTGGACCAGTGTATTCAAGATC AAGAACATCCAG CAATCAGGACATTATCCGCTAGAGCTGCAGCTGCATTTGTACTTGCTAATGAGA ATAATATTGCTC TTTTCAAAGACTTTGCAGACTTGCTTCCTGGAATCTTACAGGCTGTGAATGACT CATGCTACCAGG ATGATGATTCAGTGCTAGAATCCCTTGTTGAGATTGCAGATACCGTACCTAAGT ACTTGGGTCCTT ATTTAGAAGATACTCTACAGTTGAGTTTGAAGTTATGTGGAGACTCTAGGCTTA GTAATCTGCAGC GCCAGCTGGCCCTCGAAGTTATAGTGACCTTGTCTGAAACTGCCACTCCGATGT TGAAAAAACAT ACAAATATTATTGCACAGGCAGTTCCTCATATATTAGCAATGATGGTTGATCTA CAAGATGATGAG GACTGGGTAAATGCTGATGAAATGGAAGAAGATGATTTTGACAGCAATGCAG TTGCTGCGGAGA GTGCACTAGACAGACTGGCTTGTGGGCTTGGTGGAAAAGTTGTTTTACCAATG ACCAAGGAGCAT ATCATGCAGATGCTTCAGAGCCCTGACTGGAAGTATCGACATGCTGGATTAAT GGCCTTATCTGC CATTGGAGAAGGATGCCATCAACAAATGGAATCAATTCTAGATGAAACAGTTA ACTCCGTTTTGC TTTTTCTTCAG 51195 RAPGEFL1 HSX2_01752559 709 GATTCCAGAGGAGAACCAGCCACCCAGCAAGCAGGTGAAGCCACTCTTCCGCC ACTTCCGCCGG ATAGACTCCTGTCTGCAGACCCGGGTGGCCTTCCGGGGCTCTGATGAGA 5921 RASA1 HSX2_01177981 710 CCAGTAGAAGATAGAAGGCGTGTACGAGCTATTCTACCTTACACAAAAGTACC AGACACTGATGA AATAAG 158158 RASEF HSX2_02259119 711 AGAAGAGCAAGTTAGTACCTTGTACCAAAACATCAACCTTGTGGAGCCAAGAT TAATTCAGCCAT ATGAACATGTTATAAAGAACTTCATCCGTGAGATCAGACTTCAAAGCACAGAA ATGGAAAATTTGGCCATTGCGGTGAAGAG 158158 RASEF HSX2_02259164 712 GAAAACCAGAAAGTTAAGAAAGACCTTTTAGAAGCACAGACAAACATAGCCTT TCTTCAGAGTGA GTTAGATGCTTTGAAAAGTGATTATGCTGATCAGAGTCTGAATACTGAAAG 158158 RASEF HSX2_02259175 713 GGATCTGGAAATAATCCGAGCATACACAGAAGATCGAAATAGTCTTGAGAGG CAAATTGAAATA CTCCA 158158 RASEF HSX2_02259183 714 AACAGCTAACCGGAAGCTACATGACAGTAATGATGGCCTTAGAAGTGCCCTTG AAAACAGTTATA GCAAGTTCAACAGATCTTTG 1000 CDH2 HSX2_00831170 715 GAACATATGTGATGACCGTAACAGCAATTGATGCTGACGATCCCAATGCCCTC AATGGGATGTTG AGGTACAGAATCGTGTCTCAGGCTCCAAGCACCCCTTCACCCAACATGTTTACA ATCAACAATGA GACTGGTGACATCATCACAGTGGCAGCTGGACTTGATCGAGAA 1000 CDH2 HSX2_00831175 716 AAAGTGCAACAGTATACGTTAATAATTCAAGCTACAGACATGGAAGGCAATCC CACATATGGCCT TTCAAACACAGCCACGGCCGTCATCACAGTGACAGATGTCAATGACAATCCTC CAGAGTTTACTG CCATGACG 1000 CDH2 HSX2_00831180 717 TTTTATGGTGAAGTTCCTGAGAACAGGGTAGACATCATAGTAGCTAATCTAACT GTGACCGATAA GGATCAACCCCATACACCAGCCTGGAACGCAGTGTACAGAATCAGTGGCGGA GATCCTACTGGA CGGTTCGCCATCCAGACCGACCCAAACAGCAACGACGGGTTAGTCACCGTGGT CAAA 1000 CDH2 HSX2_00831185 718 CCAATCGACTTTGAAACAAATAGGATGTTTGTCCTTACTGTTGCTGCAGAAAAT CAAGTGCCATTA GCCAAGGGAATTCAGCACCCCCCTCAGTCAACTGCAACCGTGTCTGTTACAGTT ATTGACGTAAA TGAAAACCCTTATTTTGCCCCCAATCCTAAGATCATTCGCCAAGAAGAAGGGCT TCATGCCGGTAC CATGTTGACAACATTCACTGCTCAGGACCCAGATCGATATATGCAGCAAAATAT TAG 1000 CDH2 HSX2_00831190 719 ATACACTAAATTATCTGATCCTGCCAATTGGCTAAAAATAGATCCTGTGAATGG ACAAATAACTAC AATTGCTGTTTTGGACCGAGAATCACCAAATGTGAAAAACAATATATATAATG CTACTTTCCTTGC TTCTGACAATG 1000 CDH2 HSX2_00831195 720 GAATTCCTCCTATGAGTGGAACAGGAACGCTGCAGATCTATTTACTTGATATTA ATGACAATGCCC CTCAAGTGTTACCTCAAGAGGCAGAGACTTGCGAAACTCCAGACCCCAATTCA ATTAATATTACA GCACTTGATTATGACATTGATCCAAATGCTGGACCATTTGCTTTTGATCTTCCTT TATCTCCAGTGA CTATTAAGAGAAATTGGACCATCACTCGGCTTAATG 1000 CDH2 HSX2_00831200 721 GTGATTTTGCTCAGCTTAATTTAAAGATAAAATTTCTTGAAGCTGGTATCTATG AAGTTCCCATCAT AATCACAGATTCGGGTAATCCTCCCAAATCAAATATTTCCATCCTGCGTGTGAA GGTTTGCCAGTG TGACTCCAACGGGGACTGCACAGATGTGGACAGGATTGTGGGTGCGGGGCTT GGCACCGGTGC CATCATTGCCATCCTGCTCTGCATCATCATCCTGCTTA 1000 CDH2 HSX2_00831205 722 TCCTTGTGCTGATGTTTGTGGTATGGATGAAACGCCGGGATAAAGAACGCCAG GCCAAACAACTT TTAATTGATCCAGAAGATGATGTAAGAGATAATATTTT 1000 CDH2 HSX2_00831219 723 GGCCTTAAAGCGGCTGACAATGACCCCACAGCTCCACCATATGACTCCCTGTTA GTGTTTGACTAT GAAGGCAGTGGCTCCACTGCTGGGTCCTTGAGCTCCCTTAATTCCTCAAGTAGT GGTGGTGAGCA GGACTATGATTACCTGAACGACTGGGGGCCACGGTTCAAGAAACTTGCTGACA TGTATGGTGGA GGTGATGACTGAACTTCAGGGTGAACTTGGTTTTTGGACAAGTACAAACAATTT CAACTGATATTC CCAAAAAGCATTCAGAAGCTAGGCTTTAACTTTGTAGTCTACTAGCACAGTGCT TGCTGGAGGCT TTGGCATAGGCTGCAAACCAATTTGGGCTCAGAGGGAATATCAGTGATCCATA CTGTTTGGAAAA ACACTGAGCTCAGTTACACTTGAATTTTACAGTACAGAAGCACTGGGATTTTAT GTGCCTTTTTGT ACCTTTTTCAGATTGGAATTAGTTTTCTGTTTAAGGCTTTAATGGTACTGATTTCT GAAACGATAAG TAAAAGACAAAATATTTTGTGGTGGGAGCAGTAAGTTAAACCATGATATGCTTC AACACGCTTTT GTTACATTGCATTTGCTTTTATTAAAATACAAAATTAAACAAACAAAAAAACTCA TGGAGCGATTT TATTATCTTGGGGGATGAGACCATGAGATTGGAAAATGTACATTACTTCTAGTT TTAGACTTTAGT TTGTTTTTTTTTTTTTCACTAAAATCTTAAAACTTACTCAGCTGGTTGCAAATAAA GGGAGTTTTCAT ATCACCAATTTGTAGCAAAATTGAATTTTTTCATAAACTAGAATGTTAGACACAT TTTGGTCTTAAT  CCATGTACACTTTTTTATTTCTGTATTTTTCCACTTCACTGTAAAAATAGTATGTG TACATAATGTTT TATTGGCATAGTCTATGGAGAAGTGCAGAAACTTCAGAACATGTGTATGTATTA TTTGGACTATG GATTCAGGTTTTTTGCATGTTTATATCTTTCGTTATGGATAAAGTATTTACAAAA CAGTGACATTTG ATTCAATTGTTGAGCTGTAGTTAGAATACTCAATTTTTAATTTTTTTAATTTTTTT ATTTTTTATTTTC TTTTTGGTTTGGGGAGGGAGAAAAGTTCTTAGCACAAATGTTTTACATAATTTG TACCAAAAAAAA AAAAAAAGGAAAGGAAAGAAAGGGGTGGCCTGACACTGGTGGCACTACTAAG TGTGTGTTTTTT TAAAAAAAAAATGGAAAAAAAAAAGCTTTTAAACTGGAGAGACTTCTGACAA CAGCTTTGCCTCT GTATTGTGTACCAGAATATAAATGATACACCTCTGACCCCAGCGTTCTGAATA AAATGCTAATTTT GGA 1000 CDH2 HSX2_02495389 724 GAGTCAGCAGAAGTTGAAGAAATAGTGTTCCCAAGACAATTCAGTAAGCACAG TGGCCACCTAC AAAGGCAGAAGAGAGACTGGGTCATCCCTCCAATCAACTTGCCAGAAAACTCC AGGGGACCTTTT CCTCAAGAGCTTGTCAGG 1000 CDH2 HSX2_02495398 725 TCCTTGTGCTGATGTTTGTGGTATGGATGAAACGCCGGGATAAAGAACGCCAG GCCAAACAACTT TTAATTGATCCAGAAGATGATGTAAGAGATAATATTTTAAAATATGATGAAGAA GGTGGAGGAGA AGAAGACCAG 11123 RCAN3 HSX2_01550572 726 GAGAGAAATATGAACTTCACGCGGGAACAGAGTCGACACCCAGCGTGGTGGT TCATGTCTGTGA AAGTGAAACTGAAGAGGAAGAAGAGACAAAAAACCCCAAACAGAAAATTGCC CAGACGAGGCG CCCCGACCCTCCGACCGCAGCGTTGAATGAGCCCCAGACCTTTGATTGCGCGCT GTGAGGCCCTT GGTTGTGGTGCGAGGCGGCTGCCCTGGTGGGCTCTGGCCATGGCGCTCTGTGC CTGCGGCCGAT GCGTTGCTGCGAACAGCATAGGTGAGACTCTGCCGAGTGAGGTATAGGTCTTC TCACCACGCCTG TACTGCAGACACGGTCGTGTAGAGTAGCAGCTGATTTGACCTGTCCCAGATTTT AAGTGATATTCC AAAAGGGACTTTACATTAAAGGAGAAGCCCCCAAGATGTGGCCACCCTTAACC ATTTTTAAATAG TAACAAATTAGGAAAACAGCTCCCCTCCCCTCCAGCCATGTAAGTCCTCCTGATT CTGTATCACAT GAGACACCAAAAACTGGAAATGTAGTCACACCCAGTACAGTACCATTTTTATGA ATTTAAAAATA GTCTTATAATTTTAATTGTTTGTGGGTATTTTTCTACTGGTATAAATAGCTTCTAA TTAATAAATCGA TCAAAGGTTGTTACTCAGTATACATGAAATTTTTTGCAGGAAAAGAAACCAGAA ATACAGAATAA TTCATAGAAATCATGGTTCTCAAGTATTTGTTCAATTAGCTTTGGGGAAGAAAT GCCAAATCCACT TTGAGGATGAGTCTTACGACACAGATCCACCCACATGTTGCTCTTATCTGGAAT TTGGGACAA 5981 RFC1 HSX2_01182722 727 CAAAGTTTGGTAAATTTTCCGGCAAAGATGATGGCTCTAGTTTTAAAGCAGCGT TGCTGTCAGGC CCTCCTGGTGTTGGCAAAACCACCACAGCTTCCCTGGTGTGTCAG 84220 RGPD5 HSX2_02090776 728 AGCCTCCATTATGGCATGCTGAATTTACCAAAGAAGAATTGGTTCAGAAGCTCC GTTCCACCACA AAAAGTGCAGATCACTTAAACGGCCTGCTTCGGGAAATAGAGGCAACCAATGC AGTCCTTATGG AGCAAATTAAG 58480 RHOU HSX2_01949078 729 GTCGTGAGCCCCTCATCCTTCCAGAACGTCAGTGAGAAATGGGTGCCGGAGAT TCGATGCCACTG TCCCAAAGCCCCCATCATCCTAGTTGGAACGCAGTCGGATCTCAGAGAAGATG TCAAAGTCCTCA TTGAGTTGGACAAATGCAAAGAAAAGCCAGTGCCTGAAGAGGCGGCTAAGCT GTGCGCCGAGG AAATCAAAGCCGCCTCCTACATCGAGTGTTCAGCCTTGACTCAAAAAAACCTCA AAGAGGTCTTT GATGCAGCCATCGTCGCTGGCATTCAATACTCGGACACTCAGCAACAGCCAAA GAAGTCTAAAAG CAGGACTCCAGATAAAATGAAAAACCTCTCCAAGTCCTGGTGGAAGAAGTACT GCTGTTTCGTAT GATGCTGGCAAGACACCCAGAAAGGCTATTTTCAGATGAAATCGATATTAGAA GCTATATTAGCT GAAACAACTCCTTTTACTGCGTAGAACCTATATCGAGAGTGTGTGTATATGTAT TATAGGAGGAG CTCTCAATTTTATGTATTCTTTCTGCCTTTAATTTTCTTGTTTGTTTGAGCTTAGG GATGAGATACTT ATGCAAGATATTTTTGAAGTAAATTAAACATTTTTCACATCTCTGGAAATTTAG AGTTCTAGACCTC TGGTTAATTTATATCTAATATGAAGAAGACACCTCTAATCTGGATGTTAAGAAT GAAGTTCTGCTA CATTATAATGTACAGAAGAGCAAAAGGGAGGAACACTATGGTTAACCCTCTCT TGATTAAGGGCT ACTTAATGCACAGTGCATTATGTACACAGGTCAACCATGGTAACAATAGTTCTT AGCTTTGAAACT CCATGCAAACCATGCCTTTTTTTTAAGGAGCAAAAATCTGAGAAAAAAAGTGA GAGACCTCTGCC TACAAAACCTCAAACCAGTCACTTTTGTCAATTGCTAATACCCAGTTACTTATGA TTTAAAAACAAC CAACAGAAAACATCCCACTGACTGTATGGCACTCTGTAGTCAAAAAAGGAAAC TTCCTTATTGGG ACTTTTCTTTCTTAGTCCAGTTGTGTTGACACATATGAACACAGACAAAGTGCT ATGCGGAGGAAA GCAAGTGTTGGTCAGTAGTTTCATGTTTTAGGGAGTGGTTCCTGTGGAGATCA GAAAGTGACATT TGCTTTCGGTACTGTAATACGTGCACCAAACTGCCTCAATCCTAGGTAACGAGG GCAACAGGGAG CACCTGTCTGGATTGTTTTTAAACCTCCATACTCAAGCTGTCTCTTCGGCAGGG AGGTGAATACTC TTGAAAGGCCAACAGCAAGTGTTTGTGGGACACAACACAGATAATTTTTTCTTA AGTCGGCCAAG ATGTACTTCTCTGTGTGCACACCCATGCACACTCATGCACACAGATACATAGGT CTGTATGGCTGT ATTTGCTGTTGATTCAGACTTTCACACCATTAATGGGGAAAAGCGTGGCCACA AAAACAGATGCT AGGAAGCTTGGCTTCCTCTTCTTGTTGACCCTTTTTTGAACCAACATCTTTTTTAT TATATTCAGAGT ATGTTTTTAAGTGTATCTTAATATATACATTTTTTAGGACATCTTAAATCTAAAC AAAAAATAAAAT GAACATCTCTTGAAACCTGTTAAAACAACCAGTTAAAGCCACAGATGGCTTTCA GGGCAGTAGCA GCAGAGGCCAGTGGACTCTGAGGACTCCTGAGGGGCGGGGCGTGTAGCCAG CCAGGTGCATGC CGGGACCATGGCCCCCATACTTGGCTGCTTCCTGTGACAGTGAAATACATCCTT CAAGGTGGCAG CTGTTAGGGCTGAATCTTCTGGAGAAAAAGGTGCCATCTCAGGAGAATAGCTT TTACTCTGGTAG GAATGCTTCCGAGACACCACAAGGCAGCCTGAACACTCAGTTGCAGGGTCGG GCTTGCGGTGGG TGACCCAGAGCCACCAAAGTCACATCCACAACTAATGAGGGAAATCTGTAAAG CCAGTTAGATAG AAGAATTTTATTTTTCTGTGGGTTTTGTGTTGTCTTTTTTATGTTAAAAAGAAAT CCAGTTTGTGTTT TTCTATAGAAAAAGTAAAAGATCAGGTTATACTTTAGGTTAGGGGTTCTATTTA TTCCTGTTAGTA AATAAAATTAACAAATTTCTTTGTTTAACAAAAGATTAATCTTTAAACCACTAAA ATACATAGACTG 63891 RNF123 HSX2_01961187 730 CCCACCAGTGAGGAGGACCTCTGCCCCATCTGCTATGCCCACCCCATCTCTGCT GTGTTCCAGCCC TGTGGCCACAAGTCCTGCAA 81847 RNF146 HSX2_02066510 731 GCCGCAACGTACTCCGGGTCGGCCTTGCGCTCGG 6569 SLC34A1 HSX2_01226407 732 TGCTGGAGGTGAGCTCTGCCATCCCCATCATCATGGGCTCCAACATCGGCACC TCTGTCACCAAC ACCATCGTGGCCCTGATGCAGGCGGGGGACAGGACTGACTTCCGGCG 6258 RXRG HSX2_01203661 733 CTCCGATCTAGAGGCAGATTCCTGACTAATCCCAGAGGGCTGGCCCAGCCTGT GCTCCCCGGGCT GCTAGGAAGCGATGACCACTCTTGTTAGCCCAAGTTGAAGAAAGCCGGGCTGT GCCTGGGAGCC GAGAGAGGCGGTAATATTTAGAAGCTGCACAGGAGAGGAACATGAACTGAC GAGTAAACATGT ATGGAAATTATTCTCACTTCATGAAGTTTCCCGCAGGCTATGGAG 6258 RXRG HSX2_01203664 734 GCTCCCCTGGCCACACTGGCTCTACATCCATGAGCCCATCAGCAGCCTTGTCCA CAGGGAAGCCA ATGGACAGCCACCCCAGCTACACAGATACCCCAGTGAGTGCCCCACGGACTCT GAGTGCAGTGG GGACCCCCCTCAATGCCCTGGGCTCTCCATATCGAGTCATCACCTCTGCCATGG GCCCACCCTCAG GAGCACTTGCAGCGCCTCCAGGAATCAACTTGGTTGCCCCACCCAGCTCTCAG 6258 RXRG HSX2_01203667 735 TCCCGCAGGCTATGGAGGCTCCCCTGGCCACACT 6258 RXRG HSX2_01203684 736 GTTACCAACATATGTCATGCTGCTGACAAGCAGCTTTTCACCCTCGTTGAATGG GCCAAGCGTATT CCCCACTTCTCTGACCTCACCTTGGAGGACCAGGTCATTTTGCTTCGGGCAG 6258 RXRG HSX2_01203703 737 TGTACTCTTTAACCCAGATGCCAAGGGCCTGTCC 6258 RXRG HSX2_02517790 738 ACAAATGACCCTGTTACCAACATATGTCATGCTGCTGACAAGCAGCTTTTCACC CTCGTTGAATGG GCCAAGCGTATTCCCCACTTCTCTGACCTCACCTTGGAGGACCAGGTCATTTTG CTTCGGGCAG 6284 S100A13 HSX2_01205966 739 CCTGACAAAGGTCAGCTAGCCCCTTGAGGACATCAGCTTTGGCCTCAGGGTCC TAATGGCAGCAG AACCACTGACAGAGCTAGAGGAGTCCATTGAGACCGTGGTCACCACCTTCTTC ACCTTTGCAAGG CAGGAGGGCCGGAAGGATAGCCTCAGCGTCAACGAGTTCAAAGAGCTGGTTA CCCAGCAGTTGC CCCATCTG 6284 S100A13 HSX2_01205987 740 AATCGACCACGGAAATTTGACACCTCCGGGCTTGGAAGCAGCTCTCTCCTCCTT CCCCGCTGCTTA TAAACCTCAGCCCTGAGGCTCCAGCTCACTCTACCCCATCTCCTTGCCGG 6284 S100A13 HSX2_01205990 741 CCCCATCTCCTTGCCGGGTCAGCCCTGACAAAGG 6284 S100A13 HSX2_02517894 742 CCTGACAAAGGTCAGCTAGCCCCTTGAGGACATCAGCTTTGGCCTCAGGGTCC TAATGGCAGCAG AACCACTGACAGAGCTAGAGGAGTCCATTGAGACCGTGGTCACCACCTTCTTC ACCTTTGCAAGG CAGGAGGGCCGGAAGGATAGCCTCAGCGTCAACGAGTTCAAAGAGCTGGTTA CCCAGCAGTTGC CCCATCTGCTCAAG 6299 SALL1 HSX2_01206855 743 TTATTCTGCCCCAGCTGATGTTTGAGCCAGC 6299 SALL1 HSX2_01206862 744 CAGATCAAGTGGACTGCAGCGACCTTTCAGAACACAACGGACTTGACAGGGA AGAGTCCATGGA GGTGGAGGCCCCGGTTGCTAACAAAAGCGGCAGCGGCACTTCCA 6299 SALL1 HSX2_01206865 745 TGACACAGTTAACAAAACAGATCAAGTGGACTGC 6297 SALL2 HSX2_01206829 746 AATTCCTGCCCCATCTGCCAGAAGAAGTTCACCA 401474 SAMD12 HSX2_02398686 747 ACATGGCCTGTTCCTCACAGAAAGACTAACCCATGGCACTGCCAGAAGATATC CTTGGATCGTGG ACAGATTAACTGGATTAACTGAAAAAAGCACCCATTCAGTCAATATTATGGGTT TTGGAAAAATCT TGCTTTGCTGTGGATTTAAAATGAGGTGCATAATATAATGCCAACTCATTCCAA GTGGTCATTGGC AGACCATTAGCTGGAAAATTGCTTCCAGTTTTCATCACTGTGCATAACTCAAGT TCCCTTTGGGGA GCTGTCTGTGCCCTTCACTAGAAGTCCTGTTTTAGCATGGCAACTACTGGATTA TTTTATTATGTGT GCAGATGGCATGATGTTTTAGAAAAAAAAAATTACAGCAATTCTGCAATCTCA GTGGAAGTGTTC ACAATATTATGCCCTGGTAGGAATGTAAACACGTCTCGATTATGTTAGTTATGA TGTCTAAAGGTA TACTGTCCAACTCTTAAGCACTTTATATGAGAACACTACACCAAGATGAATCAG CACATTCAGCAC ATGTGAGAAATCAAGTATTTTCTTTTTATTTTTATAAATCTTAGTGGTTTTTTTTT TTCCGGCTCAGA CTGTCCAAGACAAACTCCACTACTCGCATATCCCCAGTTGTTTGTGGTAGGTTG ATGTAAATATGG CCACAATACTGTTAGACTTCACCTCCAGATACTTTATTGAACAACTGGTTTACTT CTAGCACCAAAG GGAAGAAGAAGGGGGTCCAGTGATGGTGATATCTTAGCTTGCTTCTTTGTTCA CAGGCACTATTG ACCACATGAACATACAGGTACTCAAATACAGGAGGCTTCTATTTGGCTCCTCCA AGGGAGGAGTT CCTCCAAGGGAAAAAAGGGGATGGTATTCTTTTAATCAAAGACCATGGTGGAT GGATGGTAAGG GCAACAGAATGCAATTCTTTTGTGTGGTCTGACGTTAACACTTCGGAAAAAATT CTAAGTCAAGTT GAAATCGCCATTCTCTCAAGAGAGAAACATCAAGAGAGAAACATCAAGTGACC CCACTATGTGCC TAGAGAAGGAAAAGGGTCAAGTCCTATACTAGGTTCCTTACTTAGGGTAGAAC CTACTAGTCCCT TGTTAATCCTTTCTGGGATTATACCTGTGACTAATTTTTTTTTTTTTAACTATGTC TTACGACAAAGC ACAGTCCTGGGAAACCAGTCAACTTAATTATTGCTTGTCTTTGAGCATTAGAGA CATGTTCATATT GACTTGCTACATAACACTGTAGCATGTTTTTTCCTGAAAATATCAAGTTGGTTG AATGGAAAGCTC AGCAAAGTATGTTCTGTGTGCCCACTGTCCCAGCCTGGGACTGACGGGCATCA GAGGCTTTGCTT TAAAATATGGGTAACCAGTTCTGGAAGACTTCCAACGCAAGCAAGCTTGGTGT TTTAGGGTGTCT CCAGATACATAAGCATTGTCTGCCTCCGCTCAGGGTCTCAGGAAATACACAGC CCATTGGAAACC ACCCACGCCTGAGATTTGGAAACCTGACGGAAAGGGAGGAAGGTCCAAATGA GTCAGCAGCAG GATGACTCACCACAAGCCTGGCAGGCTGCAGAGCCAGAGAAGGGGGCTTCCA ACAAGGAACTC AGAGAAGTTGCAGTCACCACCAAGATCTGGCCCTTCGGCAGGTCAGCACCAG GACTGCCAGGCC CTCTGCAGACCGTAATTCTCTTCACATCTATAATTAGGAGGCCAAACTCCAGCT GCCAACACCCTT GGACACAATATTCCAGTCTCCACTGCCCATCTCATGTGGTTCAGTTCTAATAGC AGGTCTTCTTCTT CCTTTCATTCCTTCCTTTATTCAGCAAGCATTTGTTGAGCATCTACTATGTGCCA AGCATTGTGCTT GGGCAACAACAGTCCACAAAGCAGACTCCCCACCTGCCCTTATGAAACTGTAT CTCCTCCTCCCCA ACATTATCACCACCCCACCATTTCCACAATGAAAACTGAATTCAGACAGCATTC TCCATTCTGCCA GAGTAACCTAGGAAGAAGAACATGGCAGCAGACGGATCCTCAGGGAGGAGG CAGCAGAGTGAC AGATGGTAAACTGCATCAGGCCACATATTTGCACCTTTCAGATACAGCCAACTC TTCCAGGGCCTA GACTGAGCTGGTTGGAGCTCCCCAAAGCAGCATTCAGTTGCTTTTCCTTGATAT CCACCCTGGCTA 6447 SCG5 HSX2_01215772 748 AGTGTCAATCCATATCTACAAGGACAGAGACTGGATAATGTTGTTGCAAAGAA GTCTGTCCCCCA TTTTTCAGATGAGGATAAGGATCCAGAGTAAAGAGAAGATGCTAGACGAAAA CCCACATTACCTG TTAGGCCTCAGCATGGCTTATGTGCACGTGTAAATGGAGTCCCTGTGAATGAC AGCATGTTTCTTA CATAGATAATTATGGATACAAAGCAGCTGTATGTAGATAGTGTATTGTCTTCAC ACCGATGATTCT GCTTTTTGCTAAATTAGAATAAGAGCTTTTTTGTTTCTTGGGTTTTTAAAATGTG AATCTGCAATGA TCATAAAAATTAAAATGTGAATGTCAACAATAAAAAGCAAGACTATGAAAGGC TCAGATTTCTTG CAGTTTAAAATGGTGTCTGAGGTTGTACTATTTTGGCCAAGTCTGTAGAAAGCT GTCATTTGATTT TGATTATGTAGTTCATCCAGCCCTTGGGCATTGTTATACACCAGTAAAGAAGGC TGTACTCAAGA GGAGGAGCTGACACATTTCACTTGGCTGCGTCTTAATAAACATGAATGCAAGC A 51540 SCLY HSX2_01771392 749 GCCGTCCCCAGTGCTGCTGAGCTACGGTGTCCCCTTCGACGTGGCCAGGAACG CGCTCCGGCTC AGCGTGGGCCGCAGCACCACCAGGGCCGAGGTGGACCTCGTCGTGCAGGACC TGAAGCAGGCC GTGGCGCAGCTGGAGGACCAGGCCTAGCACTGGGGCCGCCTTCCCCACCCCG CTTCTGGGAAGC CCGTGGCAGGGCACAGGGTTGTCCCTCCAGTTCCCTCCTGAGGGCTGTGCCAG GATGACTGTCTC ATGCCCCCTCTGCATTTTGTCCTGGAGTGCCAGCGAGTGTGCACCCCCAGTTTC CTTCCCTGGACC CCTGCAGAGCTCACAGGGCCCAGGACACCAACGCCGCATAGGACTGCCCACAT GGGACCGCCCA CATAGGACCGCCCACATAGGACCGCCCACATGGGACCGCCCACATGGGACCG CCCACATGGGAC CGCCCACATAGAACCGTCCTCCAGTGGTGAAGCGGAAACACTTAGCTTTATCC ACCCTCCCCACT GGGAACTGGGCACGCCTGTTGTGAGTGCCCTTTCCTGGAAGGTGTTTTTATCT GGAAGATAGAAT CCAAGTATTTATAACTCATTGTCAGCCAAATGCTATCATGAACGTAGGAAACTT GATTTTTTTGTTT TGATCATGGCCTCTACATGCACCTTTCCAGAGTGGTCTCTTCTCAGGCCCTTTTT AGTCCCTTTCCA AAGCTGCCCCCACCACCCTGCTCCTCTGGCCTCAGTGCACAGTGGCCCCCAGCC TCGGCCAGGCC TGCTCTGCTCAGCGCCCACCGCCCACCACCCCTCCTGCTTCCCCGAGCCTGACC CTGTTCCGCCCA CTGGCAATCAGGGCTGCGCACTTCCCTGTCCACGGTCCCCAGGCCTTCCTGTCT TGTCCCTTTTGA TCATTATTAACTCAGGGTTTCAGCTCCAACCTCGCTGAGTTGGTGCAGCTCCAG GTCATTCCTGGG GTGGGAATCGGATCATCCCTGACTCAGCTTTTACCTTAATTTTATTTGCAGAGG ATTCTTTTCTCAA AATGCTCTGGCATTTGGACACACATCACATGTCGATATTTGCATAGGAGTCATT TTCAGTGGAATA ACATTTTTAATGTGTGGTTTTACGGTTCAAGGAACTACTTGATGATTTTGAGGA AACACTTGCCAGAAACTAAATTAACGAATAAAAGATTTCAGTGCCCGA 6385 SDC4 HSX2_01211518 750 ACTCGCCGCAGCCTGCGCGCCTTCTCCAGTCCGCGGTGCCATGGCCCCCGCCC GTCTGTTCGCGC TGCTGCTGTTCTTCGTAGGCGGAGTCGCCGAGTCG 6385 SDC4 HSX2_02518216 751 ATCCGAGAGACTGAGGTCATCGACCCCCAGGACCTCCTAGAAGGCCGATACTT CTCCGGAGCCCT ACCAGACGATGAGGATGTAGTGGGGCCCGGGCAGGAATCTGATGACTTTGAG CTGTCTGGCTCT GGAGATCTGG 6385 SDC4 HSX2_02518220 752 GTGCCTCTAGATAACCATATCCCTGAGAGGGCAGGGTCTGGGAGCCAAGTCCC CACCGAACCCA AGAAACTAGAGGAGAATGAGGTTATCCCCAAGAGAATCTCACCCGTTGAAGA GAGTGAGGATGT GTCCAACAAGGTGTCAATGTCCAGCACTGTGCAGGGCAGCAACATCTTTGAGA GAACGGAGGTC CTGGCAG 89866 SEC16B HSX2_02129253 753 CTGGGAAGGGGCTTGTGGAGGCAGCTCACTTCTGCTATCTCATGGCTCACGTG CCCTTTGGCCAC TACACCGTGAAGACAGACCATCTGGTCTTGCTGGGCAGCAG 728492 SERF1B HSX2_02432910 754 CATATCAGATGGACAGATGTATCATTTTGGGGTCCACCATTCAACCCACTACAA GGAGTTTTTTAA ACAAAAATAGGAAA 26297 SERGEF HSX2_01689967 755 CGAGTGGCATCGTGTTCCAGTGGGGGACTGGTTTGGCATCATGTGGACGACG GTTGTGCCCTGG GCAGACTCTTCCATTGTTTTTCACAGCAAAGGAACCAAGCAGAGTGACAG 26297 SERGEF HSX2_01689996 756 GTGTATGTTTGGGGAAGCAACAAGCATGGGCAACTGGCTAATGAGGCTGCTT TCCTTCCTGTGCC CCAGAAAATAGAAGCACATTGTTTCCAGAATGAAAAGGTCACTGCCATCTGGA GTGGATGGACA CACCTGGTTGCTCAGACAG 5270 SERPINE2 HSX2_01123425 757 TTGGTAAAATATTAAAGAAGATCAACAAGGCCATCGTCTCCAAGAAGAATAAA GACATTGTGACA GTGGCTAACGCCGTGTTTGTTAAGAATGCCTCTGAAATTGAAGTGCCTTTTGTT ACAAGGAACAA AGATGTGTTCCAGTGTGAGGTCCGGAATGTGAACTTTGAGGATCCAGCCTCTG CCTGTGATTCCA TCAATGCATGGGTTAAAAATGAAACCAGGG 5270 SERPINE2 HSX2_01123431 758 ATATGATTGACAATCTGCTGTCCCCAGATCTTATTGATGGTGTGCTCACCAGAC TGGTCCTCGTCA ACGCAGTGTATTTCAAGGGTCTGTGGAAATCACGGTTCCAACCCGAGAACACA AAGAAACGCACT TTCGTGGCAGCCGACGGGAAATCCTATCAAGTGCCAATGCTGGCCCAGCTCTC CGTGTTCCGGTGTG 26470 SEZ6L2 HSX2_01691108 759 TGACCCAGACCACAGATCCATCACGGCAGCTGGAAGGGGGGAACCTGGCCCT GGCCATCCTGCT GCCTCTAGGCTTGGTCATTGTCCTCGGCAGTGGCGTTTACATCTAC 26470 SEZ6L2 HSX2_02547311 760 TGACCCAGACCACAGATCCATCACGGCAGCTGGAAGGGGGGAACCTGGCCCT GGCCATCCTGCT GCCTCTAGGCTTGGTCATTGTCCTCGGCAGTGGCGTTTACATCTACTACACCAA 253970 SFTA3 HSX2_02311072 761 GTTCTTTTTCTTCAGGATCAGGCACAGAGACTGACTGAATGGCTCCAATTATCA GGATTTGAAAAC CCAGTATCAGAATCTACCACTTTGT 253970 SFTA3 HSX2_02311083 762 ATGTTAATTATTCATACTGCATGACTGAGGATTTTGGAGGCAGAGAGAGATTC ATCTGCAATATTT GGAACACCAATGGAGGTCTACGTCAACACAGAATTTATACAGCAGCTGGTGCT AGTCAGAGCTA ATGACAGAATTTCAGTTTAATAAAAAGACCCCCAACTGAGCACACCATCTTGAA AAAAGTATACTT ATCAAACAGCTTTCAATCAGTTCAAGAGAGACACCTTAATTGGGGAGAGGAAG AATTGCAGAGT AGTTTGTAATCATGCCAATTCCAGATCAATAACTGCATGTCTGTTCTTTGGTAG AAATAGCTTTTGC TTTATATTAAGTAATCACATATATATTCTCTCTATTTGGATAAGGAAACCTTCGC TTTATTTGACAAT GTATAATGATATACTCTTCTAATTCACCTCTGTGTCTTCACAATAAACATGAGTA AAATTTAGACAA GTGATGGTAAAGGTCAATATAATTATTTATTTTTAAAATAAATTTTGTATCTAAC AGGAAAGCAGT TCTTATGAAATTTTTATATTTTCAAAAATTGTTTTGTTCAAATAAAATTTTATGA GTAAAGTTAA 166929 SGMS2 HSX2_02271509 763 AGATCCGTGGGTTGTGCGTCAGCTTTGGGTGAATTTTGTTTCTACCCTGTCACG GGGAAAGTTCG GGTTGAGTCCAGGAGTGCACACTGCTGCTGCCACCCAATGCGCTACATATCAC TTTTTTTTGTTTT GTTTTGTTTTGTTTTTAAAAGATCATTTTATCTTAAAAAGGAAAGCTGATCCAAG TAAACACGAAA GTATTTGACACACCCCACAGATTTTACATGTGTGTAAATGTTTCACTTTAAAATC TCTATGACAGAT ACACAGGAAACATGAGATGGTTTCTGCTAATGAGTGGCCCTTGAGTACACACT TAGATGCTGTCT GCCCTGTAAATTTGGATCTGGTGCCCCAGGGCAGTCAACTCTTCTAGCACAGG CTGAAAACACGT GTGTGTCAACTGAGGTTCACACCACTTGGGGAATGAGCCTGTTTTCTTTCCAGG TCAGGCCCTGG TGTGAGATCAATTTTAGGGCTCCTAATTGGAGCACAGAAATGTATTTGGTCAA ATTTCATTGAAGG TGATTTCTTCCTTTTTCTGTTGTACTTTATGGAAAAACCAAGATGGAACCTGAAA GTTAATGTATCC TTGCTTTTAGCAAGAGACTCAGTTTCTTATAACTAGTCCTAAGGACATATGCCG CAATTGAGTAAT TTTACTTTTACCCTATGAAAATAACATGGTGCTGCACTATAATATACTCTCGGAA TCAGTGTGTTAG TTACAGCTATACAGTGAAGGGGGATAACTGTTTCTAAATTTCTTTAAGGTGATG CCAAAAAATGG ATTAAAAAATCTGATCAGATTTAATGTTACCAGATTTAGTGCATTATTTAATGCT ATTGGATCTTTT GGATAATTCTTGGCTTAATTTCTTAGCTACTTGAAGGTTAATTTGCAAGACTTTT AAAACCTTAGAA AAGTTTTAAGGTTGCAAAGTTATCAACACTGGGGCAGAGGGTGGAGAGGCCA ATGCGGGTAGA AGGAGGCAGTTATGTTTATATTGAAGGTGAAATTTTTCTTTCATTTAGAATGGA AAACATCCCCAA ATGTATCATTATAAACTAGTCAGCCTTGACTACACAAAATTGACCTTTAAGTTG CTTGAGAAAAAC ACAATGCAAATCGTTCAGAAGGGTCAACATCCTTTGGTGCTAAAATCTTGTGTA TGTTTTCAGAAT GGCTTTTTCTGTATGTTATAGAATAATCACTAAAGGAAAGGTAGTTGAATTTAA AGTCATGAAGCA AGACTCTTTAATTCAGTTATTTTAAACAAGAATTAAAACCCCAAACATCCTTGGC AGGCTTTGAAG CACACAGAATTTTCTAGTATTTCTTATTAAATACACCAATAATAAACATATACTT AGTTTACCTGAT GAGTTTAGACATAATTCTATATAATGTTCGCTTATATTCATTTATTAACTAGCAA CACTTGTGCAAG AACAAGGTATTCTGCTTGAAAACACTGATTTTTAAGTTCCTGTTGCCCGATTGT AAAGAAAATCAT CTGACACAGAAGCCTGGATTTTGCTCTCCTAACACTGGTGTTTTCCTTGAGCCTC TAATTCAAATA AAACAAACTGATACACCTTACAGCCTTATTCATCTGTGTCTGGATAACTCACTTT TCATCTATTGAA TAAGAAAAAGTGTTTAAACTTAATAAAATAAAAAATTGTGCACCAATTACTACA GATCCTTGAAAC AGTAAGCCTTGGATTTTAGTCAAGTAATCCAGTTTTTTTTTAATTTAAAAAAAAC CATCACCTTTTA AAGAACTTTAAAAACACCTGTGATGCCAATGTGGACATTGCCGCTGCCATGTCT TTACACGCATGT GTCGTATAGCTCTGTCATCGAGTTGAGGAAGTCCATGGTTTGCAAATAAGGGT GGGGGAATCAA AATTTCAAGATGGAAAAATAAAACAAATAGTAAAACCCATTTACATGTAGGAA AGAAAAGTTGAG CTTCAACCCAATGTGCCACTTTGATATAAAACAAGTATGATATATATATAAACT GAAGATATAAAA CAAGTATGATCTTGCCTTTGAAATCATAAATGTTTGGGGTACCTGTTCTTTGCCA GTTAAGATACA TATCTTATTATCTTTGTTTTTTTCAAGTCTATGCTCCTGTTTGAAGCTTTTCCTGT AATTTAGGTTGTC TGTGAAATACCTATAACATATAATTCCTATAGAGTATGCCACATTTTTTTTCTAA CTCATTTCAAAT 6449 SGTA HSX2_02518607 764 GAGATGCCGCAGGACCTGAGGAGCCCCGCGCGAACCCCGCCTTCCGAGGAGG ACTCAGCAGAGGCAGAGCGCCTCAAAACCGAAG 57477 SHROOM4 HSX2_01923419 765 TTGGTACTGATAGAGAAGAAGCAGCAGCTGACGGGGCAGTTGGCAGATGCCA AGGAGCTGAAG GAGCACGTGGACCGCCGGGAGAAGTTGGTGTTTGGCATGGTCTCCCGCTACCT GCCTCAGGACC AGCTCCAAGATTACCAGCACTTTGTCAAGATGAAATCTGCTCTCATCATTGAAC AGCGAGAGCTG GAGGAGAAGATCAAGCTCGGGGAAGAGCAACTCAAATGTCTCAGGGAGAGTC TACTCCTGGGG CCCAGCAATTTCTAATTCTACCAGCACTCTGCCACAGCATCCCTGCCCAGCCAT GTGGGAAGTGCT TTCAATCTTCTTTGTTAGCAGTTTCTCAGCAAGTAGATAGCAATTAGCAGTTTGT TCCAGCCCTCTA CCCTGGATGTCTCTCACTACCCCTTCCCTAGCAGTGGTCCTAACCAGCTAGGAG ACCCTGGGGAA GCCACAAGCTTCTACCCAAGGGAGCTGCAGCAAGGTGTGATCTTAGAACCACA CTCTCCTTCCCA CAGTTGCCAAGGGCAAGTACTTGCTGCACAGAGAACCAAGGAAGTGCCTTCAT TCTGCTTTGTAC TAGGACACCAAAGACATCAAGTACTCATCACCCACCCATATCATCAACAGCCTC TAAAGGCTCAG AGGGAATCTGCCTTGCAGCTCTACTCTGCCCCAGGGCTTGTGGCCAGCCATTTC TCACAGAGAGC TGGCTGCCTTGAGGGCATTCACCTGGCACCAGTTTCAGGGCCTCACCCAAGCTT TGCAGGGGAAA GCACAGAGGGAGGAATTACACTGAAAAAAATGCAAGCAAAGGTTGAGTACCC CCAGGTGCCCCT TAGGAAGGAACCAGGTTTAAATAGGCTCTACCCTTACCTTTCCCAGCAGCAAGT TCAGGGGAAGA GGCCTACTCTTAGCCCTGGCTAGTGTGACCCTCTTCCTGTCCTAAGACTTTGGTC CTACCACCTCTT GTTTCATCTTTCCTTTACATTGCTGGGGGTTACCGCAGGTGCCTACCCCAGGGC TTCACCATATGG GCCATTAATAGCTCTACTAAAACTGACTTCTAGAT 57477 SHROOM4 HSX2_01923422 766 GCGAGAAGAGGGAAGTTGGAGAGGGAAAAGTTAGCCCAGAAGGAAAGCATT TTCTGCAGATCA GCCTGAATCCACCGTGGCTAG 8170 SLC14A2 HSX2_01323136 767 ACAAGCACCTTGCCCTCCAGTTCATAGACTGGGTCCTGAGAGGGACCGCTCAG GTGATGTTCATC AACAATCCTCTCAGCGGCCTCATCATCTTCATAGGGCTGCTGATCCAGAATCCC TGGTGGACAATC ACTGGGGGCCTGGGGACAGTGGTCTCGACCTTAACAGCTCTCGCCTTGGGCCA AGACAG 8170 SLC14A2 HSX2_01323147 768 CCACAGGCCACTACAACCTCTTCTTCCCCACAACACTGGTAGAGCCTGTGTCTT CAGTGCCCAATA TCACCTGGACAGAGATGGAAATGCCCCTG 8170 SLC14A2 HSX2_01323168 769 GTGGGCGTGCCACCAGGCACCTGGGCCTTCTGCCTTGCCACCATCATCTTCCTG CTCCTGACGAC AAACAACCCAGCCATCTTCAGACTCCCACTCAGCAAAGTCACCTACCCCGAGGC CAACCGCATCT ACTACCTGACAGTGAAAAGCGGTGAAGAAGAGAAGGCCCCCAGCG 8170 SLC14A2 HSX2_01323213 770 CACTGTTTGCTGCCTACCTGGGTGCTGCCCTGGCTAACATGTTATCTGTG 8170 SLC14A2 HSX2_01323231 771 ACAGGACCTGAATGACCGATTGTTTCTTGCTTAC 9194 SLC16A7 HSX2_01390568 772 GTTTAGGTTTAGCCTTCAACCTGCAACCCGCCTTAACCATAATTGGCAAATACTT CTATAGGAAGC GACCCATGGCAAATGGATTGGCCATGGCAGGAAGTCCTGTTTTCTTAAGTTCAT TGGCTCCTTTCA ATCAGTACCTTTTTAATACTTTTGGCTGGAAAGGAAGCTTCCTGATTTTGGGAA GTCTACTTTTGA ATGCCTGTGTGGCTGGTTCCCTCATGAGACCCCTTGGACCCAATCAAACCACTT CTAAGTCTAAAA ATAAGACTGGCAAAACAGAAGATGATTCAAGCCCAAAGAAAATCAAAACGAA GAAATCAACTTG GGAAAAAGTTAATAAGTATTTAGATTTCTCCCTTTTTAAGCATAGAGGATTTCT GATATATCTGTCT GGAAATGTCATTATGTTCCTAGGTTTTTTTGCCCCCATTATATTCTTGGCTCCAT ATGCTAAAGACC AAGGAATTGATGAGTACTCGGCAGCTTTTCTGCTATCTGTTATGGCTTTCGTTG ATATGTTTGCTA GGCCTTCTGTAGGATTAATTGCAAACTCCAAATATATTCGACCTCGAATTCAGT ACTTCTTCAGTTT TGCAATCATGTTCAATGGAGTGTGTCACCTCTTGTGCCCACTGGCACAGGACTA CACAAGCCTGG TATTATATGCTGTATTTTTTGGCCTTGGATTTGGGAGTGTTAGCAGTGTTCTCTT TGAAACTCTCAT GGACCTCGTGGGTGCACCAAGATTTTCCAGTGCCGTCGGACTTGTCACAATTGT GGAGTGTGGCC CAGTTCTTCTTGGCCCTCCTCTTGCAG 92014 SLC25A51 HSX2_02146193 773 GTTAAAAAAAGTCCTTCATGAAAAAGAAAGATCTTAAGCAGCATGATGGATTC AGAAGCTCATGA AAAGAGGCCACCAATACTAACATCTTCAAAACAAGATATATCACCTCATATTAC AAATGTTGGTGA GATGAAGCATTACTTGTGTGGCTGCTGTGCAGCCTTCAACAATGTCGCAATCAC ATTTCCCATTCA GAAGGTCCTCTTTCGACAACAGCTGTATGGCATCAAAACCCGGGATGCAATAC TTCAGTTGAGAA GGGATGGATTTCGAAATTTGTATCGTGGAATCCTTCCCCCATTGATGCAGAAG ACAACTACGCTT GCACTTATGTTTGGTCTGTATGAGGATTTATCCTGCCTTCTCCACAAGCATGTCA GTGCTCCAGAG TTTGCAACCAGTGGCGTGGCGGCAGTGCTTGCAGGGACAACAGAAGCAATTTT CACTCCACTGG AAAGAGTTCAGACATTGCTTCAAGACCACAAGCATCATGACAAATTTACCAACA CTTACCAGGCTT TCAAGGCACTGAAATGTCATGGAATTGGAGAGTATTATCGAGGCTTGGTGCCC ATTCTTTTCCGG AATGGACTCAGCAATGTCTTGTTTTTCGGCCTTCGAGGTCCCATTAAGGAGCAT CTGCCTACCGCA ACGACTCACAGTGCTCATCTGGTCAATGATTTTATCTGTGGAGGTCTATTGGGT GCCATGTTGGG ATTCTTGTTTTTTCCAATTAATGTTGTAAAAACTCGCATACAGTCTCAGATTGGT GGGGAATTTCAG TCTTTCCCCAAGGTTTTCCAAAAAATCTGGCTGGAACGGGACAGAAAACTGAT AAATCTTTTCAGA GGTGCCCATCTGAATTACCATCGGTCCCTCATCTCTTGGGGCATAATCAATGCA ACTTATGAGTTC TTGTTAAAGGTTATATGAAAAAACCATCAGTTAAGTGCCATTTATCAACTGAAT AGACCTTCTAAGAAGAATGCAGTT 28965 SLC27A6 HSX2_01713935 774 ATTTGCTTGGAACGGTAGAAGAAATCCTTCCAAGCCTCTCAGAAAATATCAGT GTTTGGGGGATG AAAGATTCTGTTCCACAAGGTGTAATTTCACTCAAAGAAAAACTGAGCACCTCA CCTGATGAGCC CGTGCCACGCAGCCACCATGTTGTCTCACTCCTCAAGTCTACTTGTCTTTACATT TTTACCTCTGGA ACAACAG 28965 SLC27A6 HSX2_01713976 775 AGAGAAGGAGAAAAGGATCATAAGGTGCGTTTGGCAATTGGAAATGGCATAC GGAGTGATGTAT GGAGAGAATTTTTAGACAGATTTGGAAATATAAAGGTGTGTGAACTTTATGCA GCTACCGAATCA AGCATATCTTTCATGAACTACACTGGGAGAATTGGAGCAATTGGGAGAACAAA TTTGTTTTACAA A 28965 SLC27A6 HSX2_01714019 776 GAGAACCTGGACTTCTCATTTCTCGAGTGAATGCAAAAAATCCCTTCTTTGGCT ATGCTGGGCCTT ATAAGCACACAAAAGACAAATTGCTTTGTGATGTTTTTAAGAAGGGAGATGTT TACCTTAATACTG GAGACTTAATAGTCCAGGATCAGGACAATTTCCTTTATTTTTGGGACCGTACTG GAGACACTTTCA G 28965 SLC27A6 HSX2_01714061 777 GTTATGAAGGAAGAGCAGGAATGGCTTCTATTATTTTAAAACCAAATACATCTT TAGATTTGGAAA AAGTTTATGAACAAGTTGTAACATTTCTACCAGCTTATGCTTGTCCACGATTTTT AAGAATTCAG 28965 SLC27A6 HSX2_01714088 778 CTTTCATATGCTTTCTTAGGAAGAGTGAGAGGGGGGTATATGATTCTTTATGAA ATGGGGAAAGG GAGCTAACATTAATTATGCATGTACTATATTTCCTTAATATGAGAGATAATTTTT TAATTGCATAAG AATTTTAATTTCTTTTAATTGATATAAACAGTAGTTGATTATTCTTTTTATCTATT TGGAGATTCAGT GCATAACTAAGTATTTTCCTTAATACTAAAGATTTTAAATAATAAATAGTGGCT AGCGGTTTGGAC AATCACTAAAAATGTACTTTCTAATAAGTAAAATTTCTAATTTTGAATAAAAGAT TAAATTTTACTG AAATATTTTA 2542 SLC37A4 HSX2_00934722 779 GTAGGGCCTGCTCTTTTCTACCATGGCAGCCC 55652 SLC48A1 HSX2_01863202 780 GTATATGATGGGCCTCCCCATGTGGATCCTTAGTGCTGTGGCAGAGCCCTTGTT ATTGTGCTGGG ATTTTCCCTCCAGCTCCCGGCCGGAAGCTGGGCTCACGTGGGAGCTCAGTGCC CTCCTGCTACAG ATCTGTCTCTTCCTTACAATG 9353 SLIT2 HSX2_01400643 781 GTCACCAGTCATTTATGGCTCCTTCTTGTAGTGTTTTGCACTGCCCTGCCGCCTG TACCTGTAGCA ACAATATCGTAGACTGTCGTGGGAAAGGTCTCACTGAGATCCCCACAAATCTTC CAGAGACCATC ACAGAAAT 9353 SLIT2 HSX2_01400648 782 ACGTTTGGAACAGAACACAATCAAAGTCATCCCTCCTGGAGCTTTCTCACCATA TAAAAAGCTTAGACGAAT 9122 SLC16A4 HSX2_02529005 783 GAGCCCTTATATTATTTGGAGCTATCGCATTGAATTTGGTGCCTTCTAGTATGCT CTTAAGACCCAT CCATATCAAAAGTGAGAACAATTCTGGTATTAAAGATAAAGGCAGCAGTTTGT CTGCACATGGTC CAGAGGCACATGCAACAGAAACACACTGCCATGAGACAGAAGAGTCTACCATC AAGGACAGTAC TACGCAGAAGGCTGGACTACCTAGCAAAAATTTAACAGTCTCACAAAATCAAA GTGAAGAGTTCT ACAATGGGCCTAACAGGAACAGACTGTTATTAAAGAGTGATGAAGAAAGTGA TAAGGTTATTTC GTGGAGCTGCAAACAACTGTTTGACATTTCTCTCTTTAGAAATCCTTTCTTCTAC ATATTTACTTGG TCTTTTCTCCTCAGTCAGTTAGCATACTTCATCCCTACCTTTCACCTGGTAGCCA GAGCCAAAACAC TGGGGATTGACATCATGGATGCCTCTTACCTTGTTTCTGTAGCAG 113444 SMIM12 HSX2_02575493 784 ATGAGGCCATGAATGAGGTCGGGTCAGCCCAGGC 57154 SMURF1 HSX2_01912910 785 AACAAAGAACAACAGTCCAGGGCCAAGTTTACTTTTTGCATACACAGACTGGA GTTAGCACGTGG CACGACCCCAGGATACCAAG 83891 SNX25 HSX2_02570708 786 TCTTGAAGCCGGTAGTGGAGTTACTGAGTAATCCAGATTACATTAACCAAATG CTGCTTGCCCAG CTGGCGTACAGAGAGCAAATGAATGAGCATCACAAGAGAGCCTACACCTATG CCCCCTCTTACGA GGACTTCATCAAGCTCATTAACAGCAACTCTGATGTGGAGTTCTTGAAGCAACT AAG 134548 SOWAHA HSX2_02214232 787 GCATCGCCCTGCTCTGATCCGCCAGACGCGGAGCCCGGGCCCGGGGCAGCGA AAGGGCCGCCG CAGCAGAAGCCCTGTATGCTGCCGGTGCGCTGCGTCCCGGCCCCCGCCACGCT CCGCCTCCGGG CGGAGGAGCCCGGCCTGCGCCGGCAGCTGTCGGAGGAGCCGAGCCCGCGGA GCTCCCCTCTGC TGCTGAGGCGGCTCTCGGTGGAAGAGTCCGGTCTGGGCCTCGGCCTGGGCCC GGGCCGCTCCCC GCACCTGAGGCGCCTGTCGCGCGCCGGCCCGCGTCTGCTGAGCCCTGACGCCG AGGAGTTGCCC GCCGCGCCGCCGCCGTCCGCGGTGCCCCTGGAGCCGTCCGAGCACGAGTGGC TCGTGCGGACT GCCGGGGGCCGCTGGACCCACCAGCTGCACGGGCTGCTGCTGCGCGACCGCG GCTTGGCGGCC AAGCGCGACTTCATGTCTGGCTTCACGGCCCTGCATTGGGCCGCCAAGAGCGG CGACGGCGAGA TGGCGCTGCAGCTGGTGGAGGTCGCGCGGCGCAGTGGCGCACCAGTCGACGT GAACGCACGCT CCCACGGCGGCTACACGCCGCTGCACCTGGCTGCACTGCACGGCCACGAGGA CGCTGCCGTGCT GCTGGTGGTGCGTCTGGGTGCCCAGGTGCACGTGCGTGATCACAGCGGGCGT CGCGCCTACCAG TACCTGCGGCCCGGCTCCTCGTACGCGCTGCGCCGCCTTCTTGGCGATCCAGG CCTGCGAGGCAC CACGGAGCCAGATGCGACCGGTGGTGGAAGTGGCAGTCTTGCTGCCAGGCGC CCCGTACAGGT GGCCGCCACCATCCTCAGTTCCACCACCAGTGCATTTCTGGGCGTCCTGGCTGA CGACCTCATGC TCCAGGACCTGGCCCGAGGCTTGAAGAAGTCGAGCTCCTTCAGCAAGTTCTTG AGCGCCTCGCCC ATGGCTCCACGTAAAAAGACAAAGATCCGCGGTGGTCTGCCAGCCTTCTCAGA AATCTCTCGTCG ACCTACTCCGGGGCCTTTAGCTGGTCTAGTGCCCAGTTTTCCTCCAACAACCTG AAGGTCCCTGG GGCTACCACCTGGTTGATCTATCGTGGCCTGCTCGTCGCAGTCCAAACCCGCCC AAGA 56848 SPHK2 HSX2_01898098 788 GTCAGGGCTAAGGCCATGGCCCCGCCCCCACCGCCACTGGCTGCCAGCACCCC GCTCCTCCATG GCGAGTTT 23514 SPIDR HSX2_01645611 789 AATGCTTTGTGTAGGCTATTTCTTTTCATCCTTAACACAAATGGAAGGGAGGTA TTACTGTAAATT TGCAGATGGGGAAACTGAAGTCATCAAGGTTAAATAACTTGCTGAATTCCCAC CACCAGTGGATC ACAAAGCTGTGTGACACTGGACATGACTTCCCAAAAGAACCCCATCTTGCCATC CTATGATCTGTA GATGAAAGTAGGGTTTGCTGATGGCCCTGAGAAAATCTTAACAAACTGGATGA GGCTCAAAGAC TTTTCCAGGGATATGGCTCCAGAACTGTGACCTTCCCTTTATGGGTCCAGCATG ACATCGTCCTGC TGCTCCATATGGCATCAAT 6695 SPOCK1 HSX2_01236568 790 AGAATATGAACGGGAGCTGGGACCAAAGGACAAAGAGGGGAAGCTGAGGGT GCACACCCGAG CCGTGACAGAGGATGATGAGGATGAGGATGATGACAAAGAGGATGAGGTCG GGTACATATGGT AGTGCCCACAAGAAAGAGGACACAAGTTTTGCACAAAATTGCAAGTCACTTCC TATTCCTGCATTT GTATCTAAGACTCCAAGGCACCAAGGTCTCTTCTCCATTGTTGCTCTCTATACCC GACCTAAGGTT TGGAAGACAACTGCTTGTTCCCAGAGGATTCTGATTTTGCATATGTTTGTATGG GAGAAAGGGTG TTGTGTTTTTTTTTTGTTGTTGTTTATTTTTTGGATAGGGAAGTCATTGGCTTAAT TAGAGCCTCCTT CCTTTCTGTGAGATTTTTCCAACAAGCATGTGATTTACGTGGAATTCTGACAGT GCAGGGAGCCCC AACCCTCTTAAATGTCAAAGACCCTTTTTGATTACCCACACTGGTGGTTATTACA GCATGGTTCCC AGCCTTACAGTGTCTAAGTGCTTCTCTTGTGTCCTGTAGATGTTGTGAAAAAGA AAAAAACAAAA AATACACCACACTGTACTTTTTCCCCCTGCCCCCGTTACTGCCGGTGATTATTAT TAAAAATTAGTT TTTTTCACATCATTATATCTGGCTTCCTATAAACAACAGCCTTAATTCAGTCAAG ACTCCCTTTGGG GAATTCATTTTATTAAAAATTGGTGTCTGGATACTTCCCTGTACATGCATAAATA TGCATGCATGTA CAGAAAGACTGTATGTGTGTGCCTTGCACACACACCCATACCTCTCAGAAAAA GTGTTTGGGTAT CTTAAAAACTCGAAAAACAATGATAAATTTCTCAGCTTGTCCAGACCTGGAACA AAATTTCTGGAA TAAGAAATTTGTATTAAAGTCCTTTTTTGCACTAACAGTTGGCTCTTGTAGCCTG CAGGCTGAGGA AGTCTCTTCTCTGTGCATCAGCAGAGTTACTGAAAGCCTCTGATTGAGAAAAAA CCTCCGTCTGCC TAAATCACTTTTCTCGCAGAAGCCATGCGACTCCCACACGACACGGGCAGCTTC ACAAGCCATCT CTTTCATTTCTGCTTGAAGCCCCTTGGCTGCAGCAATCCTGTCTGCCATAGGTTT CTTCCTTCCTTA CCTACTCAAGGGCTTTTTCTAAGGCATGCACACATATCTCCTGTTCTCTGAGAG TACCATGGTGTT CCTTAAAAGAAGAAAATTTCTAATTCTGAACTCAATGTTTTGCTTTTACTCCCTT TCTACTGACAAA TCATGATAAGGGCACAAAAGCTGTACAGATTTTTTTTTTTAACCACTCAATCCC AAATGGAGGCCT ACAAAGAACATCGTAATAACACATGGAAGCAAACCCTGGGTTTTTAAGAGCAA ATTCTGTCCCCC CCTCACTCCCCCAAGTGACAAGATACTAATGAAGAAAGTTCTTCACCATAGTGT TTGTTTTAACTA AACTCATTGGAGTCTAGTTCCAAATTTGGTAGGGTCATCATCTCTACATTCCTTA GGATTTCTCTCC CTATCAAGCTGGCCCAGATACAAGTACCAAACAGTAGTCTCTGAAGTTCCCCCA TTTCCTTCAGTA CCAGTCTATAAGCTACTGTCCGCCACTGATTTTCATTTATCAGGGTGTCCTAATC AGAATCAGCCA CCCAAGCAAGCCTCTCTGGCCCACATATCTATCTCTTGCCTTCCCCCATGAACTT CAGCCTGTCCAC ACAAAAGCCACATAAACTCAAGCAAGAAATATGTTCAGCCAAAACATGATTAT AGTGGCAGCTGA CCAATCCCCCATCCCAAATTGACCATTTAGATGTACCAACTCACCTTAAATTAGC ATGTTCCAATCC AGTCGGCATTGCCTGAATACAGTAGCATCATACCTATAGTTGGTCTTAGATAAG AAATGAACTACT TGATATAGCAAAGTCCTTTGGCTTCGTAAATAACCCTGAGGTTTTGTACTTACTT TCCCCATAGGA AGACAGACCATAGGCAAACTCTGTTTTGGGATCTCAACTCCATCACCTTTGTTT CAATATTTTTTTT CTCTCTTGAACAAAACTGAGATAATTTAGAAAACAGGTGCTTAATTGCAATAAA ATTACTATGAAG TATATTAAAAATCACGACATTGTAAAATCTCACTTTAGATCATCAAAGAAAACC ATTGTTACTATCT 56928 SPPL2B HSX2_02560330 791 GATCCCCAACAACAGCCTGCCCTACTTCCACAAGCGCCCGCAGGCCCGTATGCT GCTCCTGGCGC TCTTCTGCGTGGCCGTCAGCGTGGTGTGGGGCGTCTTCCGCAACGAGGACCA 6709 SPTAN1 HSX2_01237303 792 CAACAAGTGGCCCCCACGGATGATGAGACTGGGAAGGAGCTGGTCTTGGCT CTCTACGACTATC AGGAGAAGAGTCCCCGAGAGGTCACCATGAAGAAGGGAGATATCCTTACCT TACTCAACAGCAC CA 6709 SPTAN1 HSX2_01237310 793 GATTGGTGGAAAGTGGAAGTGAACGATCGTCAGGGTTTTGTGCCGGCTGCG TACGTGAAGAAAT TGGACCCCGCCCAGTCAGCCTCCCGGGAGAATCTCCTGGAGGAGCAAGGCA GCATAGCACTGCGGCAGGAGCAGATTGACAATCA 6709 SPTAN1 HSX2_01237518 794 GAGCAGATTGACAATCAGACACGCATAACTAAGG 6715 SRD5A1 HSX2_01238416 795 GCGCGCAATCGTCAGACGAACTCAGTGTACGGCCGCCACGCGCTGCCCAGC CACAGGCTCCGAG TGCCGGCGCGGGCCGCCTGGGTGGTGCAG 23635 SSBP2 HSX2_01650778 796 AATTCTCCCAATAATATGAGCCTGAGTAATCAACCGGGCACTCCAAGGGATG ATGGCGAAATGG GGGGAAATTTCTTAAATCCTTTTCAGAGTGAGAGT 81849 ST6GALNAC5 HSX2_02066372 797 GGATCCCAATCACCCTTCAGTACCTTATCATTATTATGAACCTTTTGGACCTG ATGAATGTACAATG TACCTCTCCCATGAGCGAGGACGCAAGGGCAGTCATCACCGCTTTATCACAG AGAAACGAGTCTT TAAGAACTGGGCACGGACATTCAATATTCACTTTTTTCAACCAGACTGGAAA CCAGAATCACTTGC TATAAATCATCCTGAGAATAAACCTGTGTTCTAAGGAATGAGCATGCCAGAC TGTAATCCCAGGT ATTCACTGCATCAGACACCGAGACACTGAACTTCCTGAGCCACCAGACAGGA AAGGGTAGCAGA AAACAGCTTCACTCCTCAGGAAGTACCATGGACAGACGCCTACCAGGGGTG ACAAAGCAGTGCA GTTGGATTGTAAGGAAAAATTCCGGAATTAATGCATCCTAATGAATGTTGTC CCCTTCAATGGTGT TACCTTAGGAGCTGAACATTCAATTCAGTTACACCACTATGACTAAAAACAG TTTGGATCTCTTAG TATTGCCTTTGAAACTGCAACATAAGCAACTCAACAATATTAGTTGCATTCCT TTATAGACATACCA TGTCAAAGACGTTTTTCTATCAAGTTGTATTCTTTCCTGTTCTATAACCTTTGT CATCTGTTAGACTC TGTATGTGTGATTTGTAAAAAGCAGGCTGAAACTATGGACATGATTTCTGAA GAGCACATCTCCA CTGACTTTCATAAAGCAAATGTCCAATATTTATTTATTGAGAGTTTTTTAGTG CAATCTGGGCCAGT ATTTTTATAGATTATGATTATGTGGTAATTTATCCTTCCTAACTCTTTAATCCT GAATGATGGTTGG AAATGGCCTAGAATTAGGTTACTCTGTTCACAATGCTCATTGTTAGCATGCAA TTGGTATTTGACT TGGAAGTGTTGTGTTGTATTTTTTGAACCCCTAGGCTTCAGGAAAACTGCTCT TTTGTAAAAAGAA TAGCGATGACATTTTCTAATGTGCAGAAATGTTCCAAAAGGACAAAATTGAA AACCAAAAACTAT GTTATTAAAACAAAAAAATGCTAA 90627 STARD13 HSX2_02136138 798 AAATTGAGGCAAAAGAAGCATGTGACTGGCTCCGTGCTGCCGGGTTCCCGC AATACGCTCAGTTA TATGAGG 202374 STK32A HSX2_02290257 799 TCAACTTTGACCACTTTGAAATTTTGCGAGCCATTGGGAAAGGCAGTTTTGG GAAG 202374 STK32A HSX2_02290318 800 CACCTGAGATGTTCAGCTCCAGAAAAGGAGCAGGCTATTCCTTTGCTGTTGA CTGGTGGTCCCTG GGAGTGACGGCATATGAACTGCTGAGAGGCCGG 202374 STK32A HSX2_02290333 801 AGACCGTATCATATTCGCTCCAGTACTTCCAGCAAGGAAATTGTACACACGT TTGAGACGACTGTT GTAACTTACCCTTCTGCCTGGTCACAGGAAATGGTGTCACTTCTTAAAAAG 202374 STK32A HSX2_02290361 802 TGTCACTTCTTAAAAAGCTACTCGAACCTAATCC 202374 STK32A HSX2_02580836 803 AAAGGCAGGCTGAATTGTGATCCTACCTTTGAACTTGAGGAAATGATTTTGG AGTCCAAACCTCT ACATAAGAAAAAAAAGCGTCTGGCAAAGAAGGAGAAGGATATGAGGAAAT GCGATTCTTCTCAG 6812 STXBP1 HSX2_01245920 804 TTGTGGAAGATATCAATAAGCGCAGAGAGCCGCTCCCCAGCCTGGAGGCTG TGTATCTCATCACT CCATCCGAGAAG 6812 STXBP1 HSX2_01245932 805 CTTGTCCAGATGCCCTGTTTAATGAACTGGTAAAATCCCGAGCAGCCAAAGT CATCAAAACTCTGACGGAAATCAATATTGCATTTCTCCCGTATGAATCCCAG 6812 STXBP1 HSX2_01245999 806 CCTGAATGAGATGCGCTGCGCCTACGAGGTGACCCAGGCCAACGGAAAGTG GGAGGTGCTGAT AG 6812 STXBP1 HSX2_02488589 807 GTGGGAGGTGCTGATAGGATCCACACACATCCTC 6812 STXBP1 HSX2_02520590 808 GCATCACGGAGGAAAACCTGAACAAACTGATCCAGCACGCCCAGATACCCC CGGAGGATAGTGA GATCATCACCAACATGGCTCACCTCGGCGTGCCCATCGTCACCGAT 6812 STXBP1 HSX2_02520602 809 CGCCCGCTATGGGCACTGGCATAAGAACAAGGCCCCAGGCGAGTACCGCAG TGGCCCCCGCCTC ATCATTTTCATCCTTGGGGGTGTGAGCCTGAATGAGATGCGCTGCGCCTACG AGGTGACCCAGGC CAACGGAAAGTGGGAGGTGCTGATAG 125206 SLC5A10 HSX2_02194590 810 CTTTTGACCAGATCGGTGGTTACGGGCAGCTGGAGGCAGCCTACGCCCAGG CCATTCCCTCCAG GACCATTGCCAACACCACCTGCCACCTGCCACGTACAGACGCCATGCACATG TTTCGAGACCCCC ACACAGGGGACCTGCCGTGGACCGGGATGACCTTTGGCCTGACCATCATGG CCACCTGGTACTGGTGCACCGACCAG 23345 SYNE1 HSX2_01626487 811 TAACATCATGCAGGCAGCTGTGGTACAATATGAA 10454 TAB1 HSX2_01499454 812 GCCTTCGATGTGGTGGAGAGGAGCTTCCTGGAGTCCATTGACGACGCCTTG GCTGAGAAGGCAA GCCTCCAGTCGCAATTGCCAGAG 9882 TBC1D4 HSX2_01449478 813 TGATGGAGAAGGGAGAAAAAGGACCTCATCTACCTGCAGCAATGAGTCCCT AAGTGTGGGAGGA ACCTCTGTCACTCCTCGCCGGATCTCCTGGCGGCAGCGCATTTTCCTCAGGGT TGCTTCTCCCATG AACAAATCTCCCTCAGCAATGCAACAGCAAG 8557 TCAP HSX2_01344131 814 GACACCCAGAGACATGAGACCTACCACCAGCAGGGGCAGTGCCAGGTGCTG GTGCAGCGCTCG CCCTGGCTGATGATGCGGATGGGCATCCTCGGCCGTGGGCTGCAGGAGTAC CAGCTGCCCTACC AGCGGGTACTGCCGCTGCCCATCTTCACC 6920 TCEA3 HSX2_01254327 815 ACTCCCCTGGACCCCCAAAAGGAGAAAAAGGAGAGGAAAGAGAAAAGGCA AAGAAGAAGGAA AAAGGGCTTGAGTGTTCAGACTGGAAGCCAGAAGCAGGCCTTTCTCCACCA AGGAAAAAACGAG AAGACCCCAAAACCAG 6920 TCEA3 HSX2_01254358 816 GAAATGGCCAGTGATGAACTGAGGGAGTTGAGGAATGCCATGACCCAGGA GGCCATCCGTGAG CACCAGATGGCCAAGACTGGCGGCACCACCACTGACCTCTTCCAGTGCAGC AAATGCAAGAAGA AGAACTGCACCTATAACCAG 10178 TENM1 HSX2_01477556 817 TGCTTGCATTAAAGGACTTCCTCATCCTTTTTTTCATGAAACTGAGCTTGCTTA ATCAGAGATGGA GCAAACTGACTGCAAACCCTACCAGCCTCTACCAAAAGTCAAGCATGAAATG GATCTAGCTTACA CCAGTTCTTCTGATGAGAGTGAAGATGGAAGAAAACCAAGACAGTCATACA ACTCCAGGGAGAC CCTGCACGAGTATAACCAGGAGCTGAGGATGAATTACAATAGCCAGAGTAG AAAGAGGAAAGA AGTAGAAAAATCTACTCAAG 10178 TENM1 HSX2_01477563 818 GTTTCAAATTCTCTCCTGTTTGTTGTGACATGGAGGCTCAAGCTGGGTCTACT CAAG 10178 TENM1 HSX2_01477568 819 ATGTGCAGAGCAGCCCACACAACCAGTTCACCTTCAGACCCCTCCCACCGCC ACCTCCGCCTCCTC ATGCCTGCACCTGTGCCAGGAAGCCACCCCCTGCAGCGGACTCTCTTCAGAG GAGATCAATGACT ACCCGCAGCCAGCCCAGCCCAGCTGCTCCAGCTCCCCCAACCAGCACGCAG GATTCAGTCCATCT GCATAACAGCTGGGTCCTGAACAGCAACATACCATTGGAGACCAG 10178 TENM1 HSX2_01477573 820 GCATTTCCTGTTCAAACATGGATCTGGTTCCTCTGCGATCTTCAGTGCAGCCA GTCAGAACTACCC TCTGACATCCAATACCGTGTACTCGCCCCCTCCCAGGCCTCTTCCTCGAAGCA CCTTTTCCCGACCT GCCTTTACCTTTAACAAACCTTACAGGTGCTGCAACTGGAAGTGCACAGCAT TGAGCGCCACTGC AATCACAGTGACTTTGGCCTTGTTACTAGCCTATGTGATTG 10178 TENM1 HSX2_01477585 821 TGTTTCAGAAGGGACGGGCGATAGACACTGGAGAAGTTGACATTGGTGCAC AGGTCATGCAGAC CATTCCACCTGGTTTATTCTGGCGTTTCCAGATTACTATCCACCATCCAATATA TCTGAAGTTCAAT ATTTCTTTAGCCAAGGACTCTCTGCTGGGAATTTATGGCAGAAGAAACATTC CACCTACACATACT CAG 10178 TENM1 HSX2_01477615 822 CTCACTACTTAGATGCTGTCCGAG 10178 TENM1 HSX2_01477625 823 ATGGTTTAACCGACTGTGTGGATCCTGACTGTTGTCAACAAAGCAACTGTTA TATAAGTCCTCTCT GCCAGGGCTCACCAGATCCTCTTGACCTCATTCAGCAAAGCCAAACTCTCTTC TCTCAGCACACTT CAAGACTTTTTTATGATCGAATCAAATTCCTCATTGGCAAGGACAGTACTCAT GTCATTCCTCCTGA GGTGTCATTTGACAGCAG 10178 TENM1 HSX2_01477630 824 GCGTGCCTGTGTGATTCGAGGCCAAGTGGTGGCCATAGATGGAACTCCTCT AGTGGGAGTGAAT GTCAGTTTCTTGCACCACAGTGATTATGGGTTTACCATCAGCCGGCAAGATG GAAG 10178 TENM1 HSX2_01477635 825 CTTTGACCTCGTGGCCATCGGTGGCATCTCTGTCATCTTAATCTTCGACCGAT CCCCTTTCCTGCCT GAGAAGAGAACACTCTGGTTGCCTTGGAATCAGTTTATTGTGGTAGAGAAA GTCACCATGCAGA GAGTTGTATCAGACCCGCCATCCTGCGATATCTCCAACTTTATCAGCCCAAAC CCTATTGTGCTTC CTTCACCGCTCACATCATTTGGAGGGTCCTGTCCAGAGAGGGGAACTATTGT TCCTGAGCTGCAG 10178 TENM1 HSX2_01477640 826 GTTGTACAGGAGGAAATTCCCATTCCCTCCAGCTTTGTGAGGCTGAGTTACC TGAGCAGCCGCAC CCCTGGGTATAAAACCCTGCTACGGATCCTTCTGACACATTCAACGATTCCTG TAGGCATGATAAA AGTACACCTCACAGTAGCTGTGGAAGGGCGACTCACACAGAAGTGGTTTCC CGCCGCAATTAATC TTGTCTACACATTTGCTTGGAACAAGACCGACATCTATGGACAGAAGGTTTG GGGCCTGGCAGAGGCTTTGG 10178 TENM1 HSX2_01477645 827 TATCTGTGGGATATGAATATGAAACGTGCCCTGACTTTATTCTCTGGGAGCA AAGGACAGTCGTT TTACAAGGTTTTGAGATGGATGCTTCTAACCTAGGAGGCTGGTCTTTGAATA AGCATCACATTTTG AATCCTCAAAGTG 10178 TENM1 HSX2_01477650 828 GAATCATACATAAAGGGAATGGAGAAAATATGTTCATTTCCCAGCAGCCCCC AGTCATATCAACC ATAATGGGTAATGGACACCAAAGGAGTGTAGCCTGCACCAACTGCAATGGC CCAGCCCACAACA ACAAACTCTTTGCTCCTGTCGCCTTAGCTTCTGGCCCTGATGGCAGTGTGTAT GTTGGCGACTTCA ATTTTGTAAGGAGAATATTTCCCTCGGGAAACTCCGTTAGTATTTTGGAATTA AG 10178 TENM1 HSX2_01477665 829 GCATCACAGTTGATAGGCATGGATTTATTTACTTTGTGGATGGGACTATGAT TCGCAAAATTGATG AGAATGCTGTGATCACAACTGTAATCGGCTCAAATGGTCTGACTTCCACACA ACCACTGAGCTGT GACTCAGGAATGGACATCACTCAG 10178 TENM1 HSX2_01477670 830 GTGCGATTAGAGTGGCCAACAGACCTTGCAGTAAATCCTATGGACAATTCAT TGTATGTCTTGGA TAACAACATTGTGCTGCAAATTTCTGAGAACAGGCGTGTTCGGATCATCGCA GGACGCCCCATTC ACTGCCAGGTGCCAGGCATCGATCATTTCCTGGTCAGCAAGGTAGCAATTCA CTCCACTCTAGAG TCAGCGAGGGCCATCAGTGTCTCCCACAGCGGGCTGCTCTTCATAGCTGAAA CAGACGAGAGGA AAGTAAACCGCATTCAGCAAGTAACCACCAATGGGGAGATCTACATCATCGC TGGTGCCCCCACT GACTGTGACTGCAAAATTGATCCAAACTGTGACTGTTTTTCAG 10178 TENM1 HSX2_01477675 831 GTGATGGTGGCTATGCCAAAGATGCAAAGATGAAAGCCCCTTCCTCCTTAGC AGTGTCGCCTGAT GGAACCCTCTATGTGGCAGACCTCGGAAATGTTCGAATTCGTACCATCAGCA GGAACCAAGCCCA CCTGAATGACATGAACATTTATGAGATTGCTTCACCCGCTGATCAGGAACTG TACCAGTTCACTGT AAATGGAACCCACCTACACACCCTGAACTTGATAACAAGGGACTATGTTTAT AACTTCACCTACAA TTCTGAAGGTGACTTGGGCGCGATTACCAGCAGCAATGGCAATTCAGTGCA CATTCGCCGTGATG CAGGCGGAATGCCGCTATGGCTTGTGGTGCCTGGCGGACAAGTATACTGGC TGACTATAAGCAG CAATGGAGTCCTGAAAAGAGTGTCAGCCCAAGGCTATAATCTGGCCTTAAT GACCTATCCAGGAA ACACAGGGCTTCTGGCTACCAAAAGTAACGAAAATGGATGGACAACCGTTT ATGA 10178 TENM1 HSX2_01477685 832 AAAATACTCAAAGTACCTATCGGGTGAATCCAGATGGTTCCCTGCGTGTCAC TTTTGCCAGCGGG ATGGAGATCGGCCTCAGCTCAGAGCCCCACATCCTGGCAGGGGCAGTCAAC CCTACCCTGGGCA AATGCAACATCTCATTGCCCGGAGAGCACAATGCAAACCTCATCGAGTGGC GGCAGAGGAAGGA GCAAAACAAAGGCAATGTTTCGGCTTTTGAAAGGAGGCTGAGG 10178 TENM1 HSX2_01477690 833 GCCCACAACAGAAACCTACTCTCCATAGATTTTGATCATATAACCCGCACAG GAAAGATCTATGAT GACCATCGAAAATTCACCCTTCGAATTCTTTATGACCAGACTGGGCGACCCA TTCTGTGGTCTCCT GTAAGCAGATATAATGAAGTGAACATCACATATTCACCTTCGGGATTGGTGA CGTTTATTCAAAG AGGAACGTGGAATGAAAAAATGGAATATGACCAGAGTGGGAAAATTATTTC AAGAACTTGGGCT GATGGGAAAATTTGGAGCTATACCTACTTAGAAAAA 10178 TENM1 HSX2_01477695 834 TCTGTGATGCTTCTCCTACACAGCCAGCGGCGTTACATCTTTGAGTATGACCA ACCAGATTGTCTG CTCTCAGTCACCATGCCTAGCATGGTGCGTCACAGCTTACAAACCATGCTTTC AGTGGGCTACTAC CGGAACATCTACACCCCACCGGACAGTAGCACTTCTTTTATCCAAGACTATA GTCGAGATGGCCG ATTGCTACAGACCCTGCATCTGGGGACAGGGCGCAGAGTCTTATACAAGTA CACCAAGCAAGCA AGGCTTTCTGAGGTTCTCTATGATACCACTCAGGTCACATTAACATATGAAG AGTCTTCTGGAGTG ATTAAGACAATACACCTGATGCATGACGGATTCATCTGCACAATCAGATACA GGCAAACAG 10178 TENM1 HSX2_01477700 835 GACCTCTTATTGGACGCCAGATTTTCAGATTCAGTGAAGAAGGCCTTGTGAA TGCACGGTTCGAC TACAGCTACAACAATTTCCGAGTCACAAGCATGCAAGCTGTAATCAATGAAA CCCCTTTGCCTATA GATCTTTACCGATATGTTGATGTCTCTGGCAGAACAGAGCAGTTTGGAAAAT TCAGTGTAATTAAT TACGATTTAAATCAGGTCATAACTACTACAGTGATGAAACACACCAAAATCT TCAGTGCCAATGGA CAAGTCATTGAAGTCCAATATGAAATCCTAAAGGCAATTGCCTACTGGATGA CCATTCAATATGAT AATGTGGGCCGCATGGTAATATGTGACATAAGGGTAGGAGTAGATGCCAAT ATAACAAGGTACT TCTATGAATACGATGCTGATGGGCAACTTCAGACTGTTTCTGTAAATGACAA AACCCAGTGGCGT TATAGTTACGATCTGAATGGAAACATCAACCTCTTAAGCCATGGGAAGAGTG CTCGTCTTACTCCT CTCCGATATGACCTCCGAGACCGCATCACCAGATTAGGAGAAATTCAGTATA AAATGGATGAAGA TGGCTTTCTGAGGCAGAGGGGAAATGATATTTTTGAATATAATTCTAATGGC CTGCTGCAGAAAG CCTACAATAAGGCTTCTGGCTGGACTGTGCAGTATTACTATGATGGGCTTGG GCGACGTGTCGCG AGTAAGTCCAGCCTAGGGCAGCACCTTCAGTTCTTTTATGCAGACCTTACCA ACCCCATAAGAGTT ACTCATTTGTACAACCACACAAGCTCGGAGATTACATCTCTGTATTATGATCT CCAAGGTCACCTT ATTGCCATGGAGTTAAGCAGTGGTGAAGAATATTATGTAGCCTGTGATAATA CAGGTACCCCACT AGCTGTGTTCAGCAGCCGAGGTCAGGTCATAAAGGAGATACTATACACACC TTATGGCGATATCT ATCATGACACTTACCCTGACTTTCAGGTCATTATTGGTTTTCATGGAGGACTC TATGATTTCCTTAC TAAATTAGTGCACCTGGGGCAAAGGGATTATGATGTTGTTGCTGGCAGATG GACAACGCCTAATC ATCACATATGGAAACAGTTGAACCTCCTTCCTAAACCATTCAACCTCTACTCC TTTGAAAATAACTA CCCAGTTGGCAAAATTCAAGATGTTGCAAAGTATACCACAG 10178 TENM1 HSX2_01477705 836 ACATCAGAAGTTGGTTGGAGCTATTTGGTTTCCAATTACACAATGTACTACCT GGATTTCCCAAAC CTGAATTAGAAAATTTAGAATTAACTTACGAGCTTCTACGGCTTCAGACAAA AACTCAAGAGTGGGATCCTGGAAAG 10178 TENM1 HSX2_01477710 837 ACTATCCTGGGCATTCAGTGTGAACTCCAGAAACAGCTCAGGAATTTCATTT CCTTGGACCAACTA CCTATGACTCCCCGATACAATGATGGACGGTGCCTTGAAGGAGGGAAGCAA CCAAGGTTTGCTG CTGTCCCTTCTGTTTTTGGGAAAGGTATAAAATTTGCCATCAAGGATGGCAT AGTAACAGCTGATA TTATAGGAGTAGCCAATGAAGATAGCAGGCGGCTTGCTGCCATTCTCAATAA TGCCCATTACCTG GAAAACCTACATTTTACCATAGAGGGGAGGGACACTCACTACTTCATTAAGC TTGGGTCTCTGGA GGAAGACCTGGTGCTCATCGGTAACACTGGGGGGAGGCGGATTCTGGAGA ATGGTGTCAATGTC ACTGTGTCCCAGATGACTTCTGTGTTGAATGGGAGGACTAGACGGTTTGCA GATATTCAGCTCCA GCATGGAGCCCTGTGCTTCAACATCCGGTATGGGACAACTGTCGAAGAGGA AAAGAATCACGTG TTGGAGATTGCCAGACAGCGCGCAGTGGCCCAGGCCTGGACTAAGGAACAA AGAAGGCTGCAA GAGGGGGAAGAGGGGATTAGGGCATGGACAGAAGGGGAAAAGCAGCAGC TTTTGAGCACTGG GCGGGTACAAGGTTACGATGGGTATTTTGTTTTGTCTGTTGAGCAGTATTTA GAACTTTCTGACAG TGCCAATAATATTCACTTTATGAGACAGAGCGAAATAGGCAGGAGGTAACA AAAATATCTCTGCC TTTGCGTCACCAA 10178 TENM1 HSX2_01477711 838 GTAAATATGGAGGAAAAACATATCCAACTGCCTTTCAATGTGACGGAAGAT GGTATTTTAATATT GTTTGTTTAAACTCTTTAAGAAATGACAGAGATTTTTAGTTCTTGTGTGGCAG TATTCAAAATAAC ACAAGTAGAACTCAAACAGCTAAAAACAGTTTTCAGAAAGCACCACTTTCAA TTTGCCGAGCCAT GCATATGTTCCAATATCCAGAAAGAACCCAAGGTTCTCTATCTCTATTGTGAG AAGCAGTTTCATC CTTAACTGTTGGCAGAACTTACGGGCTATTTGAATAGGTGGTGCAATAGTAT CTGAAACTTGCCTT TCGAAAGACTGCCAGCCCTTTGACGTTTTCCAGATCTGTTATAGGAAACTTA AAAACAGGTGTAA AATGTCTTCAGCCACCATCTCCTAGAGTGAGGACCCAATTGCCCTTCCTTCTT GATTATTCCTCCTT GCTTGTTAAAGTAAATGCCATATTGTTGTGCTGTGTTTTGGCGTGTGGTGGC TGGGTTCTGTCTAC CATGCTTCCCTGTGGGTGTGGTAACCAGACTGTATAGCCGCTATTTGCTCGT GTGTACATGATACC AAAGCAGCTGGCCAGCGTGACCTCTCTCACACGACCTGTTTTGACTCAATTTT TTACTAAAAGTTG TTCAGCTGTATTGGTATCATGTAAACATAGCTTTTATTAACCTGGGTAGGAAT TTCTCATTTATATA TAGGATGTGTTTTGGTCATAGTTTCACATTAGTGATTCAGTATCTATACACTG ACCCAATGGTTTTG TGCACATGAACGGTAATTTACTTAAAAGTATGATTCTGGTACAAAAACAAAC AAAGGCTTTAGCA GGCATACGTGTCTGGGATGCCGATACATACATTAACTACTACTGCAGAAATT CATAAGAGCCAAA ACCTTAAAAAAATAGACCTGGTACTTAAGTGAAAGTACTAAAGGGAAGACC AGACCAAACATCAC AGCAGTTGCTGCCACATTGTTTCAGCCCACTTAGATTTATCTTTCAAATGTAC AATTCTGTATTGAA CATCTCCCAGCCATCTTCAGGAAATCGAATCAAGTAAATCCTTTCCAACCGAA AACATTTCAACTA ACTATAGAGAGGCAGACTCATTTTTACTAAAATAATTTATACAGTTAGTTATT TTCGTTCTCCGTAC TTACCCATTTATCTTTATTTAATCGTCTCTACTGCCTAGGAAAATAACTATTTT CCAGGACGGGTTA TTTGTTCTGCGATCATTTAAAATTTGGAGAAAGGTCAGGATTAGTGTTAATA TCAGCTGCAGTTTC TCAATCTCTAGGAATCCTGCAGTAAAACAAGCCCCTTGGTGAGCTGGAAGAT TTGTGCCCAGTGA CAAAGAGATAGTTTGTAAAATGCTGTGTAATTGTAAGTTACCACAAATGAAA ATACATGACAGCA CAATGTGGCCCGTAGAAAATTCCCCTGAGCCAGCTTCTGCACTTTCATCACC GAATCTGAACATTT GCTATGTCTGAAGGCAAATTTATGATGGAATGTTAGTTTGGATTCTTTCCAG ATGCTACCTAAATG CAGTGTGGGGTCATTGCCTTGCTTTGCGATGACAGTTTCTTTGAAAATATGC AAAGTCATAAGCTC ATGTTAAGGTTTTTCAAGAGTCTGCCTCCTACTACACAAAGGAAAGCAAGGG AAAGGAAATGACC CTGGCAAACAGTAGGGAAGGGTGTATTCAAACATTTCATTTTCAAAACCTTC GGGTTAGAATACC ACTTACACATGTATTCTGAGAGACAGAATTCATGAGGAACTCATCTCTCTTTA TAACTGGAAACAC ACCAGCTTGATATATTGCTAATCCATACTAAAATCATATTATTGGGTTTTTTCT GAATCAGGCCTGT ATTAATGGTACAGTATTTATTCAGAATGGAATTCTAAAATTACTAACAAACTT GTTGAAAATTTGA ATACCTCCACACCAACCTAAAAATGGACCTTAAGTTCCTAGAACCTCTGATGT TCTTTTAAATTAAT GGAAAAATAATTTGTGAACTGTATATAGAGAGTGCATTCATAAATGTGATTA TGTATTTTATCACA AATCCAAAATGTCAATATTAGAGTCTATTTTGCTTATATTTTAAGCAATTATA CGTTTTTGCAATTCA TTGATGATGTATCATTTTCAAACTGCTTTAAATATCCATTAGAAACAAATATT TGAAGCTTTTACTT 29842 TFCP2L1 HSX2_01723004 839 CCGAAGGGAGCCGATCGGAAACAGAAGACTGACCGGGAGAAGATGGAGA AAAGAACTGCCCAA GAGAAGGAGAAATACCAGCCGTCCTATGAAACCACCATCCTCACAGAG 7039 TGFA HSX2_01263636 840 TGGTCTGAAGAGCCCAGAGGAGGAGTTTGGCCAGGTGGACTGTGGCAGAT CAATAAAGAAAGG CTTCTTCAGGACAGCACTGCCAGAGATGCCTGGGTGTGCCACAGACCTTCCT ACTTGGCCTGTAA TCACCTGTGCAGCCTTTTGTGGGCCTTCAAAACTCTGTCAAGAACTCCGTCTG CTTGGGGTTATTC AGTGTGACCTAGAGAAGAAATCAGCGGACCACGATTTCAAGACTTGTTAAA AAAGAACTGCAAA GAGACGGACTCCTGTTCACCTAGGTGAGGTGTGTGCAGCAGTTGGTGTCTG AGTCCACATGTGT GCAGTTGTCTTCTGCCAGCCATGGATTCCAGGCTATATATTTCTTTTTAATGG GCCACCTCCCCACA ACAGAATTCTGCCCAACACAGGAGATTTCTATAGTTATTGTTTTCTGTCATTT GCCTACTGGGGAA GAAAGTGAAGGAGGGGAAACTGTTTAATATCACATGAAGACCCTAGCTTTA AGAGAAGCTGTAT CCTCTAACCACGAGACCCTCAACCAGCCCAACATCTTCCATGGACACATGAC ATTGAAGACCATCC CAAGCTATCGCCACCCTTGGAGATGATGTCTTATTTATTAGATGGATAATGG TTTTATTTTTAATCT CTTAAGTCAATGTAAAAAGTATAAAACCCCTTCAGACTTCTA 7048 TGFBR2 HSX2_01264514 841 GAGAAAGAATGACGAGAACATAACACTAGAGACAGTTTGCCATGACCCCAA GCTCCCCTACCATG ACTTTATTCTGGAAGATGCTGCTTCTCCAAAGTGCATTATGAAGGAAAAAAA AAAGCCTGGTGAG ACTTTCTTCATGTGTTCCTGTAGCTCTGATGAGTGCAATGACAACATCATCTT CTCAGAAG 7069 THRSP HSX2_01266503 842 ATCCCTTCACATGATAGAAGACAGACTCTTTGATGAGGTCGGCGGAGCAGTT CACTAGCCAATGA TGAGAGCAGAAAGGCCTAGACCTGCAGCCAGAAGTGAAGGCGGCTCAGTT CTCCGGGATGCTTC TCTACCTCCTGAGCACCAATTCCTGGATTCCAGTCACTGGCTCACCTTTAGAA TGTCTGTTGCTATT CACTGCTCCCCTCGCTCCTCTTAACAGCTTGGGGAGGTGACCAGTGGTTCAG GAGGGACTAGACA ATTACCTGTCCAGTGTGGTATGGTAGGAAGAGTGTAGGTGTTGGCACGTGA CCAAAATTCACATC CCTCCTCATGGCAGTCATTCAGTATGTGTACTTGTACAAGTTATTTAACCCAT TGGAGCCTAAATTC CCTCATCTATAAAATGGGGATAATATTATCTACCTCACAAGCTTATGAAAACT AAACATGATGAAT CAAAAGCACTTGGCATGTGAGGGCTATTAAAATAGCCTGATTTTTTTTTTCTC CCCCTCTCCCCAAT GTATTTGCTCTGGCCCTTGCTTTTTACCCTCCAGAGCTAAGAGGTAGCAGAG TCTCTTGGGATGAG TGATTCACCCTCTTACTTGGCGACCACTGATGAGATCAACAACAGGTGAACT ATAAACCTATTATT TATTGCAGAACTAATAAAAAATCCAAAGCCTTGTA 25976 TIPARP HSX2_01671479 843 GATTTTTAGACTCTGAGGAGCAGTTGGAGCTAATCCACATTATGGAAATGGAA ACCACCGAACCT GAGCCAGACTGTGTAGTGCAGCCTCCCTCTCCTCCTGATGACTTTTCATGCCAA ATGAGACTCTCT GAGAAGATCACTCCATTGAAGACTTGTTTTAAGAAAAAGGATCAGAAAAGATT GGGAACTGGAA CCCTGAGGTCTTTGAGGCCAATATTAAACACTCTTCTAGAATCTGGCTCACTTG ATGGGGTTTTTA GATCTAGGAACCAGAGTACAGATGAGAACAGCTTACATGAACCTATGATGAAG AAAGCCATGGA AATCAATTCATCATGCCCACCAGCAGAAAATAATATGTCTGTTCTGATTCCTGAT AGGACAAATGT TGGGGACCAGATACCGGAAGCCCATCCTTCCACTGAAGCTCCAGAACGAGTGG TTCCAATCCAA GATCACAGCTTTCCATCAGAAACCCTCAGTGGGACGGTGGCAGATTCCACACC AGCTCACTTCCA GACTGATCTTTTGCACCCAGTTTCAAGTGATGTTCCTACTAGTCCTGACTGCTTA GACAAAGTCAT AGATTATGTTCCAGGCATTTTCCAAGAAAACAGTTTTACAATCCAATACATTCTG GACACCAGTGA TAAGCTGAGTACTGAGCTCTTTCAGGACAAAAGTGAAGAGGCTTCCCTTGACCT CGTGTTTGAGC TGGTGAACCAGTTGCAGTACCACACTCACCAAGAGAACGGAATTGAAATTTGC ATGGACTTTCTG CAAGGCACTTGTATTTATGGCAGGGATTGTTTGAAGCACCACACTGTCTTGCCA TATCATTGGCAG ATCAAAAGGACAACTACTCAAAAGTGGCAGAGTGTATTCAATGATTCTCAGGA GCACTTGGAAAG ATTTTACTGTAACCCAGAAAATGATAGAATGAGAATGAAGTATGG 25976 TIPARP HSX2_01671483 844 AGGACAAGAATTTTGGGCAGATTTGAATGCCATGAACGTGTATGAAACAACTG AATTTGACCAAC TACGAAGGCTGTCCACACCACCCTCTAGCAATGTCAACTCTATTTACCACACAGT CTGGAAATTCT TCTGTAGGGACCACTTTGGATGGAGAGAGTATCCCGAG 25976 TIPARP HSX2_01671512 845 GAAAAAGGAATATATGAACAGGAAAATGTTTGGCCGTGACAGGATAATAAAT GAGAGACATTTA TTTCATGGAACATCCCAGGATGTGGTAGATGGAATCTGCAAACACAACTTTGAC CCTCGAGTCTG TGGAAAGCATGCTACAATGTTTGGACAAGGCAGTTATTTTGCAAAGAAGGCAA GCTACTCTCATA ACTTTTCTAAGAAGTCCTCCAAAGGAGTCCACTTCATGTTTCTGGCCAAAGTGC TGACGGGCAGA TACACAATGGGCAGTCATGGCATGAGAAGGCCCCCGCCAGTCAATCCTGGCAG TGTCACCAGTG ACCTTTATGACTCTTGTGTGGATAATTTCTTTGAGCCTCAGATTTTTGTCATTTTT AATGATGACCA GAGTTACCCTTATTTTGTTATCCAATATGAAGAAGTCAGTAACACTG 9414 TJP2 HSX2_01405349 846 AAAACGCACAAGCCAGACCCTGGCACGCCCCAGCACACGAG 7088 TLE1 HSX2_01268117 847 GACCCTTCTTCTCCGCGAGCAAGCCCTGCCCACTCGCCCCGGGAAAATGGAATC GACAAAAATCG CCTGCTAAAGAAGGATGCTTCTAGCAGTCCAGCTTCCACGGCCTCCTCG 7088 TLE1 HSX2_01268172 848 TCCAAAGAGTCCTCGTCAGTGCTTAGCTGTGACATCTCTGTGGATGATAAGTAC ATAGTCACTGG CTCGGGGGACAAGAAGGCTACAGTCTATGAAGTCATCTACTGAAAACATTATG TGGTTTAACGTT TATAGTTGAATTGGGCCAAAATGTTTCGAATTTATAGAAATAGAAAAGTTGTAA CTTTAAAAGAG AAAAAAAATTACAAACACCTGTTTCCAAACCTTGACAGAAAACTACTTTGAGTC TACAAAGAGGA GGCGACAAGTCCATCAGCAGAAAGTCACCTGTCTACATAGACCAAATGGAGCA CCAAGGCCAAG CGGACAGAGGGGCCATGGGTTGTAGGATTGAGGAACGGAATCTGCCGACTCA CATGACAGCCC ATTCTTTCTTTCTGGGTGATCTGGGGATCACGCCTTGCCCAAGTGTGAGATTAC CTTTCTGTTCCTT GCAGTTCACCTCACTTTCCGTCCTTTGTAGAGCAGTGGTGTCTCCAATGAACTTG TTTCCTGGTTTT GCATCTTGTGAAATGTTTTTTTGTATTTTTGTTGAAGGTTAAACATTTGTATAAA TTGTAAATATATT TGGTTTATTACAGTAAAGGCTTTAGTACCAATAA 83660 TLN2 HSX2_02072578 849 CCTGGAAGCAAGATGGTGTCCTCTGCCAAAGCCGCAGTGCCCACCGTGAGTGA CCAGGCCGCAG CCATGCAGCTGAGCCAGTGTGCCAAGAACCTGGCCACCAGCTTGGCGGAGCTG CGTACCGCCTC GCAGAAG 25963 TMEM87A HSX2_01670934 850 TGATGGAGAACCTTGTGACCTGTCTTTGAATATAACCTGGTATCTGAAAAGCGC TGATTGTTACAA TGAAATCTATAACTTCAAG 25963 TMEM87A HSX2_01670939 851 CACTATCTTCCTGAAGTTTGATGGAGAACCTTGT 25963 TMEM87A HSX2_01670944 852 GAAGTAGAGTTGTATTTGGAAAAACTTAAGGAAAAAAGAGGCTTGTCTGGGA AATATCAAACATC ATCAAAATTGTTCCAGAACTGCAGTGAACTCTTTAAAACACAG 25963 TMEM87A HSX2_01670955 853 ACCTTTTCTGGAGATTTTATGCATCGACTGCCTCTTTTAGGAGAAAAAC 25963 TMEM87A HSX2_01671067 854 TTGGATTGGTGCTGTCATCTTCCTGGGAATGCTT 25963 TMEM87A HSX2_01671111 855 GGATATGGCATCGTCAAGCCACGCCTTGGAGTCA 25963 TMEM87A HSX2_01671149 856 GCCTTGTGCTGGTGGATATTTATTAGCCTGACTC 25963 TMEM87A HSX2_01671180 857 TAGTGACATGTCAGTCGGACTGGCGGGAGCTGTG 25963 TMEM87A HSX2_01671193 858 GCCTTTTCACCATTGTCTGAGGAAGAGGAGGAGGATGAACAAAAGGAGCCTAT GCTGAAAGAAA GGCTTTG 25963 TMEM87A HSX2_01671207 859 TCTGCAAACAACCAGAGGTTTGCCTTTTCACCAT 25963 TMEM87A HSX2_01671265 860 GAACGAATGATCACACACTTTGAAAGGTCCAAAATGGAGTAAGGAATGGGAA GATTTGCAGTTA AAGATGGCTACCATCAGGGAAGAGATCAGCATCTGTGTCAGTCTTCTGTACGG CTCCATGGGATT AAAGGAAGCAATGACATCCTGATCTGTTCCTTGATCTTTGGGCATTGGAGTTGG CGAGAGGTGTC AGAACAAAGAGAACATCTTACTGAAAACAAGTTCATAAGATGAGAAAAATCTA CGAGCTTCTTAT TTACAACACTGCTGCCCCCTTTCCTCCCAGACTCTGACATGGATGTTCATGCAAC TTAAGTGTGTT GTTCCTGAACTTTCTGTAATGTTTCATTTTTTAAATCTGACAAACTAAAAAGTTT AACGTCTTCTAA AAGATTGTCATCAACACCATAATATGTAATCTCCAGGAGCAACTGCCTGTAATT TTTATTTATTTAG GGAGTTACATAGGTGATGGGGGAAATTGTTAACTACCTTTCATTTTCCTGGGAA GTCAAGGTTAC ATCTTGCAGAGGTTGTTTTGAGAAAAAAGGGCCCTTCTGAGTTAAGGAGCCAT AGTTCTATCAAT GATCAA 25963 TMEM87A HSX2_02546143 861 TTGATGGAGAACCTTGTGACCTGTCTTTGAATATAACCTGGTATCTGAAAAGC GCTGATTGTTACA ATGAAATCTATAACTTCAAG 25963 TMEM87A HSX2_02546146 862 GCAGAAGAAGTAGAGTTGTATTTGGAAAAACTTAAGGAAAAAAGAGGCTTGT CTGGGAAATATC AAACATCATCAAAATTGTTCCAGAACTGCAGTGAACTCTTTAAAACACAG 25963 TMEM87A HSX2_02546153 863 ACCTTTTCTGGAGATTTTATGCATCGACTGCCTCTTTTAGGAGAAAAACAGGAG 25963 TMEM87A HSX2_02546163 864 TGACTGTTGAAGTGAAGGGTCCCTATGAATACCTCACACTTGAAGACTATCCCT TGATGATT 26022 TMEM98 HSX2_01675662 865 GCCCATTGTGGACCTCATTGGTGCCATGGAGACCCAGTCTGAGCCCTCTGAGT TAGAACTGGACG ATGTCGTTATCACCAACCCCCACATTGAGGCCATTCTGGAGAATGAAGACTGG ATCGAAGAT 26022 TMEM98 HSX2_01675678 866 GGGTCTCATGTCCCACTGCATTGCCATCTTGAAG 26022 TMEM98 HSX2_02546441 867 ATTTGTCACACTCTGACAGAGAAGCTTGTTGCCATGACAATGGGCTCTGGGGC CAAGATGAAGAC TTCAGCCAGTGTCAGCGACATCATTGTGGTGGCCAAGCGGATCAGCCCCAG 51330 TNFRSF12A HSX2_01760100 868 GCGCTGCAGCACCTCCTGCCCCCTTCCGGCTGCTTTGGCCCATCCTTGGGGGC GCTCTGAGCCTG ACCTTCGTGCTGGGGCTGCTTTCTGGCTTTTTGGTCTGGAGACGATGCCGCAG GAGAGAGAAGTT CACCA 23043 TNIK HSX2_01589734 869 GGGCTGAGTCACCTGCACCAGCATAAAGTGATTCATCGAGATATTAAAGGGCA AAATGTCTTGCT GACTGAAAATGCAGAAGTTAAACTAG 23043 TNIK HSX2_01589742 870 TGGACTTTGGAGTCAGTGCTCAGCTTGATCGAACAGTGGGCAGGAGGAATAC TTTCATTGGAACT CCCTACTGGATGGCACCAGAAGTTATTGCCTGTGATGAAAACCCAGATGCCAC ATATGATTTCAA G 23043 TNIK HSX2_01589753 871 CCACATATGATTTCAAGAGTGACTTGTGGTCTTT 23043 TNIK HSX2_01589756 872 CTCTCTGTGACATGCACCCCATGAGAGCTCTCTTCCTCATCCCCCGGAACCCAG CGCCTCGGCTGA AGTCTAAGAAGTG 23043 TNIK HSX2_01589779 873 CTCCATCCTGAATCTGCCAGGGGAGTCGACGCTGCGGAGGGACTTTCTGAGGC TGCAGCTGGCC AACAAGGAGCGTTCTGAGGCCCTACGGAGGCAGCAGCTGGAGCAGCAGCAG CGGGAGAATGAG GAGCACAAGCGGCAGCTGCTGGCCGAGCGTCAGAAGCGCATCGAGGAGCAG AAAGAGCAGAGGCGGCGGCTGGAGGAG 23043 TNIK HSX2_01589799 874 GAATATAAGCGCAAACAATTGGAAGAACAGAGACAAGCAGAAAGACTGCAG AGGCAGCTAAAG CAAGAAAGAGACTACTTAGTTTCCCTTCAGCATCAGCGGCAGGAGCAGAGGC CTGTGGAGAAGA AGCCACTGTACCATTACAAAGAAGGAATGAGTCCTAGTGAGAAGCCAGCATG GGCCAAGGAG 23043 TNIK HSX2_01589809 875 GTAGAAGAACGGTCAAGGCTCAACCGGCAAAGTTCCCCTGCCATGCCTCACAA GGTTGCCAACA GGATATCTGACCCCAACCTGCCCCCAAGGTCGGAGTCCTTCAGCATTAGTGGA GTTCAGCCTGCT CGAACACCCCCCATGCTCAGACCAGTCGATCCCCAG 23043 TNIK HSX2_01589851 876 CCAACAGTAAGTCAGAAGGATCACCTGTGCTCCCCCATGAGCCTGCGAAGGTG AAACCAGAAGA ATCCAGGGACATTACCCGGCCCAGTCGACCAGCT 23043 TNIK HSX2_01589906 877 ACGTCTGGAGAGAAGAAGCGATCTGGCCACAGTGACAGCAATGGCTTTGCTG GCCACATCAACC TCCCTGACCTGGTGCAGCAGAGCCATTCTCCAGCTGGAACCCCGACTGAGGGA CTGGGGCGCGT CTCAACCCATTCCCAGGAGATGGACTCTGGGACTGAA 23043 TNIK HSX2_01589937 878 CTCTGTTTACTAGCGAACTTCTTAGGCAAGAACAGGCCAAACTCAATGAAGCA AGAAAGATTTCG GTGGTAAATGTAAACCCAACCAACATTCGGCCTCATAGCGACACACCAGAAAT CAGAAAATACAA GAAACGATTCAACTCAGAAATACTTTGTGCAGCTCTGTGGG 23043 TNIK HSX2_01590045 879 CCTACATTCATTCCAATCAGATAATGGGCTGGGGCGAGAAAGCTATTGAGATC CGGTCAGTGGAA ACAGGACATTTGGATGGAGTATTTATGCATAAGCGAGCTCAAAGGTTAAAGTT TCTATGTGAAAG AAATGATAAG 7159 TP53BP2 HSX2_01274309 880 GCCTCGGATGCCCTCAAGGCCTGAATTGCTGGTGAAGCCAGCCCTGCCGGATG GTTCCTTGGTCA TTCAGGCTTCAGAGGGGCCGATGAAAATACAGACACTGCCCAACATGAGATCT GGGGCTGCTTC ACAAACTAAAG 7159 TP53BP2 HSX2_01274325 881 GTTGCAAATAAAAATGTGGCTAAAGTACCACCTCCTGTTCCTACAAAACCAAAA CAGATTAATTTG CCTTATTTTGGACAAACTAATCAGCCACCTTCAGACATTAAGCCAGACGGAAGT TCTCAGCAGTTG TCAACAGTTGTTCCGTCCATGGGAACTAAACCAAAACCAGCAGGGCAGCAGCC GAGAGTGCTGC TATCTCCCAGCATACCTTCGGTTGGCCAAGACCAGACCCTTTCTCCAGGTTCTA AGCAAGAAAGTC CACCTGCTGCTGCCGTCCGGCCCTTTACTCCCCAGCCTTCCAAAGACACCTTACT TCCACCCTTCA GAAAACCCCAGACCGTGGCAGCAAGTTCAATATATTCCATGTATACGCAACAG CAGGCGCCAGG AAAAAACTTCCAGCAGGCTGTGCAGAGCGCGTTGACCAAGACTCATACCAGA GGGCCACACTTTT CAAGTG 7164 TPD52L1 HSX2_01274704 882 TACTCCATTCGCCATTCCATAAGTATGCCTGCTATGAG 7164 TPD52L1 HSX2_02522322 883 TTACTCCATTCGCCATTCCATAAGTATGCCTGCTATGAG 55521 TRIM36 HSX2_01854056 884 GTTACCATTAAGAATATCGAAAGGGAGCTCATTTGCCCAGCATGCAAGGAGCT GTTTACCCACCC ATTGATTCTCCCTTGCCAACATAGTATCTGTCATAAATGTGTAAAAGAACTCCT GCTGACTCTCGAT GATTCATTCAACGATGTGGGATCAGACAACTCCAATCAAAGCAGTCCTCGACT TCGGCTCCCCTCC CCTAGTATGGATAAAATTGACCGAATTAACAGACCAG 286144 TRIQK HSX2_02489942 885 GCCTTGGCAGAGCTGAGCAGGCATTTTGGAGATC 8848 TSC22D1 HSX2_01365731 886 GGTGTTTTTGGCTGCAATTGCATGAAATCCCAATGGTGTAGACCAGTGGCGAT GGATCTAGGAGT TTACCAACTGAGACATTTTTCAATTTCTTTCTTGTCATCCTTGCTGGGGACTGAA AACGCTTCTGTGAGACTTGATAATAG 100131187 TSTD1 HSX2_02584821 887 CGCCCACGGTCTCGCTTCCTGAACTCCGTTCACTCCTAGCCTCCGGACGGGCCC GGCTCTTCGAC GTGCGCTCTCGCGAGGAGGCGGCAGCTGGGACCATCCCAGGGGCGCTCAACA TCCCGG 7991 TUSC3 HSX2_01317834 888 CGGGTTTTCAGACCACCCAACTACTCTGGTACCATTGCTTTGGCCCTGTTAGTG TCGCTTGTTGGA GGTTTGCTTTATTTGAGAAGGAACAACTTGGAGTTCATCTATAACAAGACTGG TTGGGCCATGGT GTCTCTG 7991 TUSC3 HSX2_01317841 889 CTATGACTTCTGGCCAGATGTGGAACCATATCCGTGGACCTCCATATGCTCATA AGAACCCACAC AATGGACAAGTG 7991 TUSC3 HSX2_01317865 890 TTCGTTCCAAGTACCACGGCTATCCTTATA 7991 TUSC3 HSX2_01317884 891 TGATCTGGACTTTGAGTGAGAAGATGTGATTTGGACCATGGCACTTAAAAACT CTATAACCTCAG 7991 TUSC3 HSX2_02525011 892 ATTCGGGTTTTCAGACCACCCAACTACTCTGGTACCATTGCTTTGGCCCTGTTA GTGTCGCTTGTT GGAGGTTTGCTTTATTTGAGAAGGAACAACTTGGAGTTCATCTATAACAAGAC TGGTTGGGCCAT GGTGTCTCTG 7991 TUSC3 HSX2_02525012 893 TGTATAGTCTTTGCTATGACTTCTGGCCAGATGTGGAACCATATCCGTGGACCT CCATATGCTCAT AAGAACCCACACAATGGACAAGTG 7991 TUSC3 HSX2_02525016 894 CTTTTTAATTAAATGAAGCCAAGTGGGATTTGCATAAAGTGAATGTTTACCATG AAGATAAACTGT TCCTGACTTTATACTATTTTGAATTCATTCATTTCATTGTGATCAGCTAGCTTATT CTTGTGTACTTT TTTTAAACTGTGGGTTTTCCTAGTAAATTTAATTTACAGAAATCAATGGTAGCA TTTAGTAATCTAC AAAGGAAATATCAAAGTGTTTTTCAAGCCTGTTATATTCAGTGTGTGCCACAG GATTGAAATAAAT GACAATGTAATTATGAA 51377 UCHL5 HSX2_01762885 895 GCTCATTAAAGGATTCGGTTGCCGAGGAGCCCAA 51377 UCHL5 HSX2_01762887 896 GCCAGTTCATGGGTTAATTTTTCTTTTCAAGTGGCAGCCAGGAG 51377 UCHL5 HSX2_01762911 897 GTAATTAATAATGCTTGTGCTACTCAAGCCATAGTGAGTGTGTTACTGAACTGT ACCCACCAGGAT GTCCATTTAGGCGAGACATTATCAGAGTTTAAAGAATTTTCACAAAGTTTTGAT GCAGCT 51377 UCHL5 HSX2_01762923 898 ATGAAAGGCTTGGCACTGAGCAATTCAGATGTGATTCGACAAGTACACAACAG TTTCGCCAG 51377 UCHL5 HSX2_01762946 899 GTGCATGCAATCAAGATGATTGGATCAGTGCAGTAAGGCCTGTCATAGAAAAA AGGATACAAAA 51377 UCHL5 HSX2_01762958 900 GTACAGTGAAGGTGAAATTCGATTTAATTTAATGGCCATTGTGTCTGACAGAA AAATGATATATG AGCAGAAGATAGCAGAGTTACAAAGACAACTTGCAGAG 51377 UCHL5 HSX2_01763188 901 GCCGCCGGGGATTCCAGGTTGCCGAGGAGCCCAA 51377 UCHL5 HSX2_02551898 902 GCCAGTTCATGGGTTAATTTTTCTTTTCAAGTGGCAGCCAGGAGAAGAACCAG CAGGCTCTGTGG TTCAGGACTCCCGACTTGACACGATATTTTTTGCTAAGCAG 55813 UTP6 HSX2_02559089 903 GAGAATCCTGATTATTCTGAAGAAATCCTTAAGGGCGAGTTGGCATGGATCAT CTACAAAAATTC TGTAAGCATAATTAAAG 4013 VWA5A HSX2_01038194 904 GATAAAATGCCAATCAGGTTTTCGAAAGGCCTTA 4013 VWA5A HSX2_02507460 905 GATAAAATGCCAATCAGCACCATTCACCGCCTTG 55339 WDR33 HSX2_01849878 906 GGCCAGGTCATGAACATTTTCGTGATACTCCCCGCCCTGATCATCCCCCTCACG ACGGTCATTCCC CAGCCAGCAGAGAACGCTCCTCTTCTCTCCAAGGCATGGACATGGCATCCCTA CCTCCCCGAAAG CGCCCCTGGCATGATGGCCCAGGCACTTCTGAGCACAGAGAGATGGAGGCCC CAGGAGGCCCTTCTGAAGACCGAGGAGGCAAAG 9213 XPR1 HSX2_01392082 907 GGAGGAAGATGGCGGGCGGGCTGCTCTGAAGAGACCTCGGCGGCGGCGGAG GAGGAGAGAAG CGCAGCGCCGCGCCGCGCCGGGGCCCATGTGGGGAGGAGTCGGAGTCGCTG TTGCCGCCGCCG CCTGTAGCTGCTGGACCCGAGTGGGAGTGAGGGGGAAACGGCAGGATGAAG TTCGCCGAGCAC CTCTCCGCGCACATCACTCCCGAGTGGAGGAAGCAATACATCCAGTATGAG 9213 XPR1 HSX2_01392085 908 GCTTTCAAGGATATGCTGTATTCAGCTCAGGACCAGGCACCTTCTGTGGAAG 9213 XPR1 HSX2_01392094 909 AGAAGCTCGCAGAGGCTCAGCGCAGGTTTGCTACACTTCAGAATGAGCTTCAG TCATCACTGGAT GCACAGAAAGAAAGCACTGGTGTTACTACGCTGCGACAACGCAGAAAGCCAG TCTTCCACTTGTC CCATGAGGAACGTGTCCAACATAGAAATATTAAAGACCTTAAACTGGCCTTCA GTGAGTTCTACCT CAGTCTAATCCTGCTGCAGAACTATCAG 9213 XPR1 HSX2_01392124 910 TTTCGAGTATTTACAGCCCCCTTCCATAAGGTAGGCTTTGCTGATTTCTGGCTG GCGGATCAGCTG AACAGCCTGTCAGTGATACTGATGGACCTGGAATATATGATCTGCTTCTACAGT TTGGAGCTCAA ATGGGATGAAAGTAAGGGCCTGTTGCCAAATAATTCAGAAG 9213 XPR1 HSX2_01392129 911 AATCAGGAATTTGCCACAAATATACATATGGTGTGCGGGCCATTGTTCAGTGC ATTCCTGCTTGGC TTCGCTTCATCCAGTGCCTGCGCCGATATCGAGACACAAAAAGGGCCTTTCCTC ATTTAGTTAATG CTGGCAAATACTCCACAACTTTCTTCATGGTGACGTTTGCAGCCCTTTACAGCA CTCACAAAG XPR1 9213 HSX2_01392144 912 GCGATTTGTGTGGAACTTCTTCCGCCTGGAGAATGAACATCTGAATAACTGTG GTGAATTCCGTG CTGTGCGGGACATCTCTGTGGCCCCCCTGAACGCAGATGATCAGACTCTCCTA GAACAGATGATG GACCAGGATGATGGGGTACGAAACCGCCAGAAGAATCGGTCATGGAAGTACA ACCAGAGCATAT CCCTGCGCCGGCCTCGCCTCGCTTCTCA 65986 ZBTB10 HSX2_01994861 913 GAGTTGATGCAGGACGGCGCGTCCCTGAGCGACAGCACCGAGGACGAGGAG GAGGGGGCGAG CCTGGGCGACGGCAGCGGGGCGGAAGGCGGCAGCTGCAGCAGCAGCAGGC GGTCGGGCGGCG ATGGCGGGGACGAAGTGGAGGGCAGCGGTGTGGGAGCTGGCGAAGGAGAG ACTGTCCAGCAC TTCCCGCTCGCGCGGCCCAAGTCTCTAATGCAGAAGCTCCAATGCTCCTTCCAG ACCTCCTGGCTC AAGGACTTTCCCTGGCTGCGCTATTCCAAGGATACTGGTCTTATGTCTTGCGGC TGGTGCCAAAA GACCCCTGCAGATGGGGGAAGCGTGGACCTTCCCCCAGTGGGGCATGATGAG CTTTCGCGAGG GACCCGCAACTACAAGAAAACCCTCCTCCTGAGGCACCACGTCTCTACCGAGC ACAAACTCCACGAAGCCAACGCCCAG 340595 ZCCHC16 HSX2_02359509 914 CTTCACCTATTGACTACGATCTACCTTCAGCATAAATCAACCTTCCTGGAACCAC AGCTCTGCCACC CTTCCATAGAGCTATATGTTTTGTTTCCATCTAAAGACTCATGCTTTCCCAACAA ACAGAACCTCCT GGCTATTTACAAACCAGATTGAATGGGCATTTGAATACTGCTTGGAACTGTTG GTCCCTTTTTCTTT GCAGGCTAGCCCATCAGGCAGGTGTATGCTTTTAGCCAAGCCCACCAATTCCA ACTTATTCCTCTC TTCTCCAACAACCCTACTTGAGGTTCCAGCATGTCTTATAGCCAAGTCAATATG CTCTAGGATAAG GATTTCTGAAAGGTATTTAGTGAGAGTTGGGGATGGTGTGTCATAATTACTGT ATCTGTAGCATG TCCTTGCTGCCTTGGACAAGGGACCTGGCCAAATAAATCTCCACTGAAGACTG ACAGCCAGACCC TGCAGTAGTTTCTAACTCTAGAAGCCTCAATGTAGTCACCATCTAGGATTACTA CTCATTGCTATTG AGCTCTACCTTTATGGACCACCTCTGAAGTCCTTCATCTAATTGAGGATCTTAA AAAACAATGAAT GGCAAAAAACTTCCTACACTATCTCATCTGAAAAATCCTGGGGCACATACATTA AAACCATTTGTG CACAAAACTCAGGAAGTCGGGATTTTATTGCTTATGTTTTACTCTTGGTACACA CCAGCTTTGTGT AGATTCCTGATGCTTCTGAACAAAAGTAGTGTTATGCTAGAAAGGCAAAACTC CCTAAAATGTTA AAACTGTTCAGCAATGATCACTGCTGGTAATTACCAGCCCTCTGTTCCCTGCTT CTTGTTTCTGATG TATGTCCCCAAAATGGATATCCTGGAGAAATATCAGTAATCACATATTCCCTAG CAACCATACCAT TGGCCTTTTCCATGAAGAAGAGGCAACATTGAGTGGCGGACAACACTTTTTGG CATCTCTCCAATT CAGCTGTTAGCATCTCCTAGTGTCTTCTTCACAGCTAACAGCTTTGGCTACTTGC TCATGACACTCC GTCTCTGATCACAGAGCAAATCCACTGTCTCCATTGGTTTCCAGTACTAGTACT CAATTCTACTCAA TCCCACCTGATTCCAGGAGACATAATGGAGAAGTGCACGAAATCATCATCTAC CATGCAGGTAGA GCCTTCCTTTCTTCAGGCAGAGAATCTGATTCTGCGGCTTCAAATGCAGCATCC AACCACGGAGA ACACTGCTAAAAGGGGCCAAGTCATGCCTGCCCTGGCCACCACAGTGATGCCT GTACCATACTCA CTTGAGCATCTCACCCAGTTTCATGGTGACCCTGCCAATTGCTCAGAGTTCCTC ACTCAGGTGACT ACCTACTTGACAGCTCTCCAAATCTCTAATCCTGCAAATGATGCCCAGATCAAA CTCTTTTTTGATT ACCTATCTCAGCAGTTAGAAAGTTGTGGGATCATATCTGGGCCTGACAAGAGT ACCTTACTGAAG CAATATGAGAATCTTATTCTTGAGTTCCAGCAGTCATTTGGTAAACCCACAAAA CAGGAAATCAAT CCTCTGATGAATGCTAAGTTTGACAAAGGAGACAACTCCTCTCAGCAGGACCC TGCTACTTTCCAC CTCCTCGCTCAAAATCTGATCTGTAATGAAACCAATCAGAGTGGTCAGTTCGAA AAGGCACTAGC TGATCCCAACCAGGATGAAGAGAGTGTCACTGATATGATGGACAATCTTCCAG ACCTGATCACTC AGTGCATTCAGTTGGACAAGAAACATAGTGACAGGCCAGAGCTCCTACAGTCA GAGACCCAGCT CCCATTGTTGGCTTCCTTGATCCAACACCAAGCCCTCTTTAGCCCCACAGATCCA CCACCCAAGAA AGGGCCTATACAGCTGCGAGAAGGCCAGCTGCCTCTCACCCCAGCCAAACGA GCCCGCCAGCAA GAAACTCAGTTGTGCCTCTACTGCAGCCAATCTGGTCACTTCACAAGAGATTGC CTTGCCAAACGT TCTCGAGCTCCGGCAACGACAAATAACACAGCTCACCAGTAAGAGGAGACCA GGAAAGTCACTT TTTAAACTTACATCCCAGCCTTACTGATTTATAACCTGCATTAACTTTTAAAATA CAGATGGGGAAC TGTGACACCACTTTATAGGCAGTTATGAACTGACACGCTTTGGGGGAATTTAA ACAATCAGATCTT 51364 ZMYND10 HSX2_01761846 915 GAGGTGTGTGAGTCAGCAGAAGACACTGTCTTGGACTTGGTAGACTATTGCCA CCGCAAACTGA CCCTGCTGGTGGCCCAGAGTGGCTGTGGTGGCCCCCCTGAGGGGGAGGGATC CCAGGACAGCA ACCCCATGCAG 155054 ZNF425 HSX2_02256272 916 GTAACTGTGACATTTGATGATGTGGCCTTATATTTTTCGGAACAAGAGTGGGA GATCCTGGAGAA GTGGCAGAAGCAAATGTATAAGCAAGAGATGAAGACCAATTACGAGACCCTT GATTCCCTGG 57474 ZNF490 HSX2_01923238 917 GACTCCATCTCCCTTGAGGATGTGGCTGTGAACTTCACCCTGGAGGAGTGGGC TTTGCTGGATCC TGGCCAGAGGAATATCTACAGAGATGTGATGCGGGCAACCTTCAAGAACCTG GCCTGTATAG 23140 ZZEF1 HSX2_01600756 918 GTGCAGCAGAAGGAAAGTGGCTTAAAATATAAATCTTTTCTGGACTTCGCGGG TCTTGATTTGCA GATCTTCTGGAATTTTTACAGTAAATTAAAGCAAAA 

1-27. (canceled)
 28. A method for the diagnosis of thyroid cancer in a mammal, comprising measuring an expression product of at least the CITED1 and TENM1 genes in a sample from the mammal and diagnosing said thyroid cancer by comparing the measured value to a reference value.
 29. The method of claim 28, for determining whether said mammal has or is likely to have a malignant thyroid lesion or nodule.
 30. The method of claim 28, said method further comprising measuring an expression product of at least one further gene selected from CCM2, SCLY and IGSF10.
 31. The method of claim 28, said method comprising measuring an expression product of at least the CITED1, TENM1, CCM2, SCLY and IGSF10 genes.
 32. The method of claim 28, wherein measuring an expression product comprises determining the presence, absence or amount of said expression product.
 33. The method of claim 28, said method comprising determining the presence, absence or amount of at least two distinct domains of an expression product of a CITED1 gene.
 34. The method of claim 28, said method comprising determining the presence, absence or amount of a sequence encoded by exon4 of the CITED1 gene.
 35. The method of claim 28, said method comprising determining the presence, absence or amount of at least one sequence encoded by exon4, exon3 and/or exon (−2) of the CITED1 gene.
 36. The method of claim 28, said method comprising determining the presence, absence or amount of at least two distinct domains of an expression product of the TENM1 gene.
 37. The method of claim 28, said method comprising determining the presence, absence or amount of at least one sequence encoded by exon1, 3, 13, 15, 17, 18, 19, 25, or 32 of the TENM1 gene.
 38. The method of claim 28, said method comprising measuring an expression product of the FRMD3 gene.
 39. The method of claim 28, said method comprising measuring an expression product of at least one gene listed in Table A.
 40. The method of claim 28, said method comprising measuring an expression product of at least one gene listed in Table B.
 41. The method of claim 28, said method comprising: a) providing a biological sample from the subject having a thyroid condition; b) performing a cytological exam of the sample to classify the thyroid condition in a category according to the Bethesda classification; and c) for any sample of indeterminate cytology, diagnosing thyroid cancer by measuring in said biological sample an expression product.
 42. The method of claim 28, wherein the gene products in the sample are measured simultaneously or sequentially.
 43. The method of claim 28, wherein each gene product is measured by selective hybridization with specific nucleic acid probes and/or by selective amplification with specific nucleic acid primers.
 44. The method of claim 28, wherein the measured value is compared to a reference value of a control benign thyroid condition and to a reference value of a control malignant thyroid condition, wherein, when the measured value is closer to the reference value of the control benign thyroid condition, then the tested thyroid condition is benign, and when the measured value is closer to the reference value of the control malignant thyroid condition, then the tested thyroid condition is malignant.
 45. A method for determining in vitro or ex vivo the benign or malignant state of a thyroid condition in a subject, wherein said method comprises determining in a biological sample from the subject variation of expression of at least CITED1 and TENM1 genes.
 46. The method of claim 45, wherein increased expression as compared to a control non-malignant thyroid tissue is indicative of a malignant status.
 47. A product comprising a support on which are immobilised at least two distinct nucleic acid probes, each probe comprising a sequence complementary to and specific of a target nucleic acid selected from any one of the sequences listed as SEQ ID NOs: 1-918, or the complementary strand thereof.
 48. The product of claim 47, comprising at least two probes selected from any one of the sequences listed as SEQ ID NOs: 919 to
 968. 